CN101054419A - Vectors with modified protease-dependent tropism - Google Patents
Vectors with modified protease-dependent tropism Download PDFInfo
- Publication number
- CN101054419A CN101054419A CNA200710088702XA CN200710088702A CN101054419A CN 101054419 A CN101054419 A CN 101054419A CN A200710088702X A CNA200710088702X A CN A200710088702XA CN 200710088702 A CN200710088702 A CN 200710088702A CN 101054419 A CN101054419 A CN 101054419A
- Authority
- CN
- China
- Prior art keywords
- cell
- virus
- albumen
- gene
- mmp
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/11—DNA or RNA fragments; Modified forms thereof; Non-coding nucleic acids having a biological activity
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/005—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/005—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses
- C07K14/08—RNA viruses
- C07K14/115—Paramyxoviridae, e.g. parainfluenza virus
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/82—Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/85—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells
- C12N15/86—Viral vectors
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N7/00—Viruses; Bacteriophages; Compositions thereof; Preparation or purification thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K48/00—Medicinal preparations containing genetic material which is inserted into cells of the living body to treat genetic diseases; Gene therapy
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/50—Fusion polypeptide containing protease site
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2760/00—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA ssRNA viruses negative-sense
- C12N2760/00011—Details
- C12N2760/18011—Paramyxoviridae
- C12N2760/18022—New viral proteins or individual genes, new structural or functional aspects of known viral proteins or genes
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2760/00—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA ssRNA viruses negative-sense
- C12N2760/00011—Details
- C12N2760/18011—Paramyxoviridae
- C12N2760/18811—Sendai virus
- C12N2760/18822—New viral proteins or individual genes, new structural or functional aspects of known viral proteins or genes
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2760/00—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA ssRNA viruses negative-sense
- C12N2760/00011—Details
- C12N2760/18011—Paramyxoviridae
- C12N2760/18811—Sendai virus
- C12N2760/18841—Use of virus, viral particle or viral elements as a vector
- C12N2760/18843—Use of virus, viral particle or viral elements as a vector viral genome or elements thereof as genetic vector
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2800/00—Nucleic acids vectors
- C12N2800/30—Vector systems comprising sequences for excision in presence of a recombinase, e.g. loxP or FRT
Landscapes
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Genetics & Genomics (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Engineering & Computer Science (AREA)
- Zoology (AREA)
- Bioinformatics & Cheminformatics (AREA)
- Wood Science & Technology (AREA)
- Biomedical Technology (AREA)
- General Engineering & Computer Science (AREA)
- General Health & Medical Sciences (AREA)
- Biotechnology (AREA)
- Molecular Biology (AREA)
- Biochemistry (AREA)
- Biophysics (AREA)
- Virology (AREA)
- Microbiology (AREA)
- Medicinal Chemistry (AREA)
- Physics & Mathematics (AREA)
- Plant Pathology (AREA)
- Proteomics, Peptides & Aminoacids (AREA)
- Gastroenterology & Hepatology (AREA)
- General Chemical & Material Sciences (AREA)
- Cell Biology (AREA)
- Pharmacology & Pharmacy (AREA)
- Animal Behavior & Ethology (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
- Communicable Diseases (AREA)
- Immunology (AREA)
- Micro-Organisms Or Cultivation Processes Thereof (AREA)
- Medicines Containing Material From Animals Or Micro-Organisms (AREA)
- Peptides Or Proteins (AREA)
- Medicines That Contain Protein Lipid Enzymes And Other Medicines (AREA)
- Enzymes And Modification Thereof (AREA)
Abstract
The invention provides a cell-induced fusion type vector with replication ability, and the protease dependence tropism is modified. An encoded M gene defective virus vector of an F protein which is modified is prepared; wherein, the cutting site of the paramyxovirus F protein is modified into the cutting sequence of another protease. The RNA of the gene groups in the vector is replicated in the cells which use the vector for transfection, thus, the cell fusion type infection is spread to the neighboring cells by depending on the other protease; however, no virus particles are released. The vector of the invention of the F protein with the encoding cut by the protease (the activity is strengthened in the cancer) shows the cancer growth inhibition in vivo.
Description
The application is dividing an application of China's application 03815574.5, this mother's case was submitted to international application no PCT/JP2003/005528 on April 30th, 2003, enter the China national stage on December 30th, 2004, this division has adopted the denomination of invention consistent with this mother's case.
Technical field
The present invention relates to have the cytogamy carrier of modified protease-dependent tropism, and the method for preparing described carrier.Carrier of the present invention can be used as the gene therapy vector that shows that cancer specific infects.
Background technology
The exploitation of gene therapy for cancer has obtained progress in recent years.At present, the inventor has used Sendai virus (SeV) to develop gene therapy vector.SeV is the virus of Paramyxoviridae, belongs to comprise overstepping one's bounds segmented negative-strand RNA viruses as its genomic papova.Paramyxovirus vector can obtain the overexpression of high transfection efficiency and heterologous gene, and expects that it can be used as the gene therapy vector of cancer.Some use the cancer therapy that paramyxovirus carries out at present.For example, mumps virus infected B HK21 cell shows anti-tumour effect (Minato, N. etc., J.Exp.Med.149,1117-1133,1979) according to observations in the nude mice that suffers from tumour.Similarly, in other paramyxovirus, also reported anti-tumour effect.Recently, the anti-tumour effect that causes fusion rotein (fusogenic) has attracted people's attention.Galanis etc. have reported with the cancer cell of carrying the proteic adenovirus carrier infection of Measles virus F and HN to form synplasm, thereby have produced anti-tumour effect (Galanis, E. etc., Hum.Gene Ther.12,811-821,2001) in vivo.
Obviously, the cancer that does not shift can be treated by this part of exenterate, and metastatic carcinoma and malignant cancer are considered to synonym.Known overexpression matrix metalloproteinase of wetting property metastatic carcinoma (MMP) and/or plasminogen activator (uPA, tPA) (Cox, G., and O ' Byrne, K.J., Anticancer Res.21,4207-4219,2001; Andreasen, P.A. etc., Cell Mol.Life.Sci.57,25-40,2000).The appearance of this overexpression it is believed that it is because the enzyme (MMP of the ECM because the cancer expression is degraded of extracellular matrix (ECM) only around, uPA, tPA) and after being degraded, just may take place to soak into and shift this fact, wherein said extracellular matrix is the barrier that prevents the cell transposition in cancer metastasis and impregnation process.
On the other hand, 3 problems have appearred with regard to the gene therapy of cancer.At first, because transgenosis is lower to the efficient in the cancer cells, and can not realize the core of transgenosis to the entity cancer easily, so gene can not be transfected to whole cancer.Correspondingly, remaining cancer cells begins to breed once more, thereby causes recurrence.Next, gene not only transfection is gone back transfection in normal cell in cancer cells.The virulent gene injuring normal cell, thus cause side effect to increase.The 3rd, along with cancer becomes perniciously, occur to soak into and shift, this becomes a problem in all types of cancer therapy.At present, also do not develop the carrier that can address these problems.
Summary of the invention
The invention provides the new cytogamy carrier of (protease-dependent tropism) that has modified protease-dependent tropism and the method that is used to prepare this carrier, this carrier only just soaks in the cell on every side under the condition that specific proteases exists.
Two kinds of albumen are contained in the paramyxovirus family (comprising Sendai virus) of virus in its coating.Merge (F) albumen realized should virus with its host cell between the film fusion, thereby cause nucleocapsid to be discharged in the tenuigenin.Hemagglutinin-neuraminidase (HN) albumen has hemagglutination activity and neuraminic acid enzymic activity, and with work during host receptor combines.F and HN albumen are also referred to as spike protein, and this is because there is the peplos surface in they.Matrix (M) albumen is arranged along coating, and makes virion have rigidity.The characteristics of carrier of the present invention are, compare with existing carrier, they very efficiently with transgenosis in extensive various kinds of cell and animal tissues, and obtained high-caliber expression.
F albumen (F0) is the showed cell fusion-activity not.Its fusion-activity can only be by host source the cutting of proteolytic enzyme show that described cutting makes F0 be degraded to F1 and F2.Therefore, the propagation of carrying the proteic virus of wild-type F is limited in expressing in the types of organization that can cut this proteic trypsin-like proteolytic enzyme, for example in the respiratory mucus epithelium.There is multinomial research to relate in paramyxovirus and modifies the tropism who infects or cause fusion power (fusogenecity) by modifying F albumen.With regard to SeV, only comprise the variant forfeiture trypsinase susceptibility of the F that is cut by alpha-chymotrypsin, be specific to the tropism (Tashiro, M. etc., J.Gen.Virol.73 (Pt 6), 1575-1579,1992) of F cutting sequence thereby changed it.In addition, in Avian pneumo-encephalitis virus and Measles virus, shown owing to cause synplasm to form mode that ability relies on trypsinase change (Li, Z. etc., J.Virol.72,3789-3795,1998 to the modification of the cutting sequence of F; Maisner, A. etc., J.Gen.Virol.81,441-449,2000).
By as the proteic cutting sequence of above-mentioned modification F, carrier can infect the particular organization of expressing specific proteases and propagation therein.Yet a problem of paramyxovirus vector is a secondary releasing virus from cell, and this appears at carrier and is imported into after the target cell.In cell, form virus particle and discharge progeny virus with reproducible virus infection.Therefore, virion also is diffused into the site except that target tissue.Although the above-mentioned proteic virion of wild-type F that comprises does not show infectivity when lacking trypsin-like enzyme, virion itself discharges from cell.For vivo medicine-feeding, care be that the virus that is diffused in the blood will be diffused into whole health.In addition, being released in the F gene defection type SeV cells transfected of virus-like particle (VLP) observed (Li, H.O. etc., J.Virol.74,6564-6569,2000; WO 00/70055; WO 00/70070), described VLP lacks replication.To the infection of the tissue beyond the target tissue and to immunoreactive inducing all is that people worry the particulate that secondary discharges.
Therefore, the inventor finds, the paramyxovirus that lacks M gene in the viral env gene does not form particle, but its can by the cell that infects with and the cell of the cells contacting of these infection merge, form synplasm and carry out cytogamy type infection (WO 00/09700).These M defective viruses duplicate in cells transfected, and are delivered in the adjacent cells under having tryptic condition.Yet this phenomenon only is cut also at F and occurs under the activatory condition.In comprising the proteic virus of wild-type F, the transfer of virus can not appear under the condition that does not have trypsin-like proteolytic enzyme.Therefore, the inventor infers and does not produce the particle that secondary discharges, and only can propagate the novel vector that infects in particular organization, can produce by the F albumen tropism who modifies in this M defective virus.Particularly, many wetting property metastatic carcinomas are known has enhanced proteolytic enzyme (as MMP, uPA, and tPA) activity, a described proteolytic enzyme degradable ECM.Therefore, the inventor utilizes the proteolytic enzyme dependent cell pattern of fusion of this M defective type SeV to infect, and is combined in overexpression MMP in the cancer, and the phenomenon of uPA and tPA prepares specific infection and is diffused into the SeV carrier of aggressive metastatic carcinoma.
The M defective virus lacks particle and forms required M gene.Therefore, virion or be not released is perhaps extremely suppressed in this virus.When traditional reconstruct method is used to prepare the recombinant virus (Kato, A. etc., Genes Cells 1,569-579,1996) with replication, can prepares the RNP of M defective virus but can not prepare infectious viral particle (WO 00/09700).When using M defective carrier as cancer therapeutic agent, exceedingly useful is that the M defective virus is prepared as infectious viral particle.Therefore, the inventor has developed the new preparation method that the M defective virus is prepared as virion.
For realizing target, promptly make up VLP and discharge downtrod carrier, the inventor considers use temperature susceptibility sudden change in virogene.Having reported can be at low-temperature epitaxy but can not be in the mutated viruses strain of high growth temperature.Inventor's imagination suppresses the mutain that virion forms at high temperature, especially Tu Bian M albumen can be used to suppress VLP formation, make the generation of virus under low temperature (for example 32 ℃), to carry out, but the practical application of virus for example gene therapy can carry out at higher temperature (for example 37 ℃).For this reason, the inventor has made up F gene defection type recombinant sendai virus vector, and the HN albumen of the M of its encoding mutant and sudden change, described albumen have the M and the whole six kinds of temperature sensitive mutations in the HN albumen (M albumen has three kinds, and HN albumen has three kinds) of report.Detected should virus VLP discharge, and this level be after measured wild-type virus about 1/10 or lower.Import the sendai virus vector of VLP release in this external cell, use anti-M antibody to carry out immunostaining and come the M protein subcellular in the analysis of cells to locate with inhibition.The result shows, compares with the cell that imports wild-type virus, and the virus that imports the VLP release with inhibition can significantly reduce the gathering of M albumen at cell surface.Particularly, the proteic concentrated pattern of M (condensation pattern) greatly reduces at high temperature (38 ℃).M and the HN albumen Subcellular Localization in the cell that is infected by the SeV that contains temperature sensitive mutation M gene critically detects with the confocal laser microscope.M albumen obviously reduces (even at low temperature (32 ℃)) in the location of cell surface, and observes and have the form similar to microtubule.At high temperature (37 ℃), M albumen is positioned near the microtubule of centrosome, promptly near golgi body.Adding the microtubule depolymerization agent causes M albumen locating structure destroyed.This situation sees SeV that comprises temperature sensitivity M gene and the SeV that comprises wild-type M gene.Thereby make that M albumen may be in fact by playing a role along the microtubule location.These discoveries confirmed to have secondary virus emission levels in the virus of temperature sensitive mutation reduce be since in the proteic cell of M the location not enough, this positioning step it is believed that to have central role in particle forms.Therefore, VLP forms and can effectively be suppressed by preventing location in the proteic normal cell of M.In addition, the proteic function of interaction partners M with microtubule may be important.For example, second particle discharges and can be lowered by the localized destruction of M protein subcellular, and this step can be used transgenation or be used for suppressing M albumen and realize along the medicament of microtubule from the golgi body transporte to cells.Particularly, the inventor finds, reduces or eliminated recombinant viral vector that particle forms ability and can comprise the virus vector that makes M albumen location that the sudden change of defective take place by preparation and provide.
By eliminate the M gene from virus, the inventor has made up a kind of virus, is wherein suppressed fully in the cell that accumulates in this virus transfection of M albumen on cell surface.For this reason, the inventor has made up the proteic helper of inducible expression's wild-type M, and it can be used for preparing M genetic flaw C-type virus C.By using these cells, reclaimed following virion first, the RNP of the M genetic flaw virus that F modifies in the described virion is included in and contains in the proteic coating of wild-type M.Method of the present invention makes that can produce concentration is 1 * 10
8Therefore PFU/mL or higher virion, and provide first and be enough to actual use, in particular for clinical recombinant virus.In addition, viral preparation system of the present invention has been avoided by the possibility of other virus pollution, and can produce high safety, and the carrier of high titre is used for gene therapy.The M defective type SeV preparation system of the application of the invention provides practical, F to modify M defective type paramyxovirus first, and it utilizes, and the cell of expressing M is trans to provide M albumen.
The inventor uses the infectious viral particle as above-mentioned structure, has confirmed actual antitumous effect in the body.The mouse of cancer cell transplantation is used in the administration of matrix metalloproteinase (MMP) (it is increased activity in cancer) activatory M defective virus, and confirm that this virus spreads in whole cancerous tissue by the infection of cytogamy type.In the cancer of administration wild-type virus, described virus even after a couple of days, also be limited in injection site.Otherwise carrier of the present invention shows the high penetrating power to cancerous tissue, and described carrier spreads in whole cancerous tissue.It is tangible that carrier of the present invention is compared with contrast (not having administration virus or administration wild-type virus) the outgrowth restraining effect of cancer.The carrier of the cell of targeted expression MMP also produces (Peng, K.-W. etc., Human Gene Therapy 8,729-738,1997 by retrovirus at present; Peng, K.-W. etc., Gene Therapy 6,1552-1557,1999; Martin, F. etc., J.Virol.73,6923-6929,1999).Yet they utilize and the diverse design of recognition sequence of the present invention.In addition, the target of these reports is specific infection cancerous tissues, i.e. a target cancerous tissue.Therefore, the carrier of specificity in cancerous tissue (in cell) diffusive infection is provided first by the present invention.
In addition, the adding and successfully prepared of the inventor by control proteolytic enzyme in the virion forming process is positioned at virus surface and has the proteic virion F-of uncut F and do not cut C-type virus C.Thus and thus, these viruses do not have infectivity; But they show specific infection power with cutting the proteic protease treatment of virus surface F or when this albumen exists virus being joined under the situation of cell.This derivable venereal infection poisonous carrier can make carrier specificity infect the cancer cell that produces specific proteases.
In addition, the inventor successfully is used to prepare the carrier that comprises modification type F gene with wild-type F albumen, to develop the method for utilizing the proteic proteolytic enzyme of cutting wild-type F to prepare virion in the preparing carriers process.According to this method, can use express the proteic helper of wild-type F and the proteic enzyme of cutting wild-type F for example trypsinase carry out virus amplification.Comprise the wild-type F albumen after the cutting in the coating of the virion that obtains, and have infectivity.Yet, since the F gene (wherein the proteic cleavage site of the F of virogene group coding is modified) after modifying, only diffusion in the presence of specific proteases of described infection.The method of this use wild-type F protein Preparation virus has advantage, and this is to be integrated in the vector gene group to produce virion owing to it allows not rely on the F gene that will modify.
As mentioned above, the invention provides a kind of carrier, it only infects when existence is expressed in proteolytic enzyme in particular organization's (as cancerous tissue) and spreads.Carrier of the present invention does not produce the virion of significant quantity, but can carrier be transferred in the peripheral cell by cytogamy.Carrier of the present invention by its activity in cancer especially enhanced proteolytic enzyme obtain infectivity, this carrier has strong inhibition effect to tumor growth.Therefore, use these carriers that cancer is carried out gene therapy and be considered to very effective.
Therefore, the present invention relates to the adorned cytogamy type of protease-dependent tropism carrier, and the method for preparing this carrier.Particularly, the present invention relates to:
[1] comprises the mixture of paramyxovirus geneome RNA, wherein the proteic nucleic acid of (a) coding M is suddenlyd change or is lacked, and (b) encoded a kind of F albumen of modified, its cleavage site sequence is replaced by the sequence that can not cut the proteic proteolytic enzyme cutting of wild-type F, and described mixture also comprises following characteristic:
(1) in the cell that imports described mixture, duplicates the ability of described geneome RNA;
(2) generation of virion is obvious in the environment in the host reduces or shortage; With
(3) under the condition that described proteolytic enzyme exists, with the ability of described RNA transfered cell, described cell is and the cell that is contacted by the mixture cells transfected.
[2] mixture of [1], wherein said mixture is a virion.
[3] mixture of [2] also comprises wild-type F albumen.
The mixture of one of [4] [1]-[3], wherein said paramyxovirus is a Sendai virus.
The mixture of one of [5] [1]-[4], wherein said proteolytic enzyme are its activity enhanced proteolytic enzyme in cancer.
The mixture of one of [6] [1]-[5], wherein said proteolytic enzyme are matrix metalloproteinase or plasminogen activator.
The mixture of one of [7] [1]-[6], wherein the sequence by the proteolytic enzyme cutting comprises Pro-Leu-Gly, Pro-Gln-Gly or Val-Gly-Arg.
The mixture of one of [8] [1]-[7], wherein excalation in the F albumen of the proteic cytoplasmic region of wild-type F after modification.
The mixture of one of [9] [1]-[8], F albumen and HN albumen after wherein modifying merge.
[10] preparation comprises the method for paramyxovirus geneome RNA, the proteic nucleic acid of (a) coding M is suddenlyd change or is lacked in this virion, and (b) encoded a kind of F albumen of modified, its cleavage site sequence is replaced described virion by the sequence that can not cut the proteic proteolytic enzyme cutting of wild-type F:
(1) has the ability of in the cell that imports described virion, duplicating described geneome RNA;
(2) generation that is presented at virion in the interior environment of host obviously reduces or shortage; With
(3) under the condition that described proteolytic enzyme exists, with the ability of described geneome RNA transfered cell, described cell is and the cell that is contacted by the virion cells transfected that comprises geneome RNA; Said method comprising the steps of:
(i) in expressing the proteic cell of paramyxovirus wild-type M, amplification comprises paramyxovirus N, the RNP of P and L albumen and geneome RNA; With
(ii) collect and be discharged into the virus in cells and supernatant particle.
[11] preparation comprises the method for the virion of paramyxovirus geneome RNA, (a) conditional mutation M albumen of having encoded in this virion, (b) the F albumen of coding modified, its cleavage site sequence is replaced described virion by the sequence that can not cut the proteic proteolytic enzyme cutting of wild-type F:
(1) has the ability of in the cell that imports described virion, duplicating described geneome RNA;
(2) generation that is presented at virion in the interior environment of host obviously reduces or shortage; With
(3) under the condition that described proteolytic enzyme exists, with the ability of described geneome RNA transfered cell, described cell is and the cell that is contacted by the virion cells transfected that comprises geneome RNA; Said method comprising the steps of:
I) under the proteic admissible condition of mutant M, amplification comprises paramyxovirus N, the RNP of P and L albumen and geneome RNA in cell; With
(ii) collect and be discharged into the virus in cells and supernatant particle.
[12] method of [10] or [11], wherein step (i) is carried out in the temperature smaller or equal to 35 ℃.
[13] method of [10] or [11], also be included in step (i) at least or one of (ii) in the step of the proteic proteolytic enzyme of F after cutting is modified is provided; Perhaps use the (ii) step of the middle virion of collecting of described protease treatment step.
[15] be used for the treatment for cancer composition, it comprises the mixture and the pharmaceutically useful carrier of [5].
[16] paramyxovirus F albumen after the recombinant modified, it comprises Pro-Leu-Gly at cleavage site, Pro-Gln-Gly or Val-Gly-Arg, and under the condition that has matrix metalloproteinase or plasminogen activator, show the cytogamy power that causes.
[17] the proteic nucleic acid of coding [16].
[18] a kind of virion, it comprises albumen or this proteic nucleic acid of coding of [16].
[19] a kind of have a fusion rotein that cell causes fusion-activity, and it comprises paramyxovirus F and the proteic film district of striding of HN, and wherein said F and HN albumen interosculate in the kytoplasm side.
[20] fusion rotein of [19], wherein this proteic cleavage site sequence is by can not cut the sequence replacement that the proteic proteolytic enzyme of wild-type F is cut.
[21] the proteic nucleic acid of coding [19].
[22] carrier that comprises the nucleic acid of [21].
[23] a kind of virion, it comprises albumen or this proteic nucleic acid of coding of [19].
Term of the present invention " paramyxovirus " refers to belong to the virus of Paramyxoviridae, and derived virus.The papova that paramyxovirus is is feature with non-merogenesis strand RNA genome, comprise that the paramyxovirus subfamily (comprises that paramyxovirus genus (is also referred to as Respirovirus, mumps virus (Rubulavirus) belongs to and Measles virus (Morbillivirus) belongs to), and Pneumovirinae (comprising that Pneumovirus and stroma lung virus (Metapneumovirus) belong to).Particularly, the available paramyxovirus of the present invention comprises Sendai virus, Avian pneumo-encephalitis virus, mumps virus, Measles virus, RS virus (respiratory syncytial virus), rinderpest virus, distemper virus (distemper virus), monkey parainfluenza virus (SV5) and human parainfluenza virus 1,2, with 3 types, or the like.More specifically for example, Sendai virus (SeV), human parainfluenza virus-1 (HPIV-1), human parainfluenza virus-3 (HPIV-3), sea dog distemper virus (PDV), canine distemper virus (CDV), dolphin Measles virus (dolphin molbillivirus) (DMV), PPR virus (peste-des-petits-ruminant) (PDPR), Measles virus (MV), rinderpest virus (RPV), Heng Dela virus (Hendra), upright all kinds of diseases and ailments poison (Nipah), human parainfluenza virus-2 (HPIV-2), monkey parainfluenza virus 5 (SV5), human parainfluenza virus-4a (HPIV-4a), human parainfluenza virus-4b (HPIV-4b), mumps virus (Mumps), and Avian pneumo-encephalitis virus (NDV).Preferred example comprises and is selected from following group virus: Sendai virus (SeV), human parainfluenza virus-1 (HPIV-1), human parainfluenza virus-3 (HPIV-3), sea dog distemper virus (PDV), canine distemper virus (CDV), dolphin Measles virus (DMV), PPR virus (PDPR), Measles virus (MV), rinderpest virus (RPV), Heng Dela virus (Hendra) and upright all kinds of diseases and ailments poison (NipahVirus).Virus of the present invention preferably belongs to paramyxovirus subfamily (comprising Respirovirus, Rubulavirus and Morbillivirus), and more preferably Respirovirus (also claiming paramyxovirus genus).The disease of the available Respirovirus of the present invention comprises hemadsorption virus type 2 (HPIV-1), hemadsorption virus type 1 (HPIV-3), bovine parainfluenza virus bovine parainfluenza virus 3 types (BPIV-3), Sendai virus (also claiming little parainfluenza virus type 1,murine), monkey parainfluenza virus 10 types (SPIV-10) etc.Paramyxovirus of the present invention is Sendai virus most preferably.These viruses can be derived from natural strain, wild-type strain, mutant strain, the laboratory strain of going down to posterity, artificial constructed strain etc.
Term " recombinant protein " and " recombinant virus " refer to albumen and the virus by the recombination of polynucleotide generation respectively.Term " recombination of polynucleotide " refers to unconjugated polynucleotide under state of nature.Particularly, recombination of polynucleotide comprises its polynucleotide chain by the polynucleotide of artificial recombination, and the synthetic polynucleotide.Recombination of polynucleotide can use traditional method of gene recombination by polynucleotide are synthetic, and ribozyme is handled, and steps such as ligase enzyme processing prepare.Recombinant protein can make up by this proteic recombination of polynucleotide of expression coding and prepare.Recombinant virus can prepare by following steps: express the virus genomic polynucleotide of coding, described polynucleotide make up by genetic engineering; The described virus of reconstruct then.
This paper term " gene " refers to genetic material, and it comprises for example RNA of nucleic acid, DNA etc.Among the present invention, the nucleic acid of proteins encoded is called protein gene.But, gene and nonessential proteins encoded, its codified functional type RNA ribozyme for example for example, sense-rna etc.Gene can be the sequence of natural origin or artificial design.This paper term " DNA " comprises single stranded DNA and double-stranded DNA.Term " proteins encoded " refers to polynucleotide, comprises antisense or adopted ORF is arranged, and described ORF proteins encoded aminoacid sequence makes these polynucleotide to express under suitable condition.
The invention provides the cytogamy carrier with replication, its protease-dependent tropism is modified.In the host in the environment, this carrier does not discharge the virus-like particle of significant quantity after transfection is in the cell, and only soaks in the peripheral cell when having specific proteases.Particularly, carrier of the present invention comprises:
A kind of mixture, it comprises the paramyxovirus geneome RNA, wherein the proteic nucleic acid of (a) coding M is suddenlyd change or is lacked, and wherein (b) coding modified F albumen, described proteic cleavage site sequence is replaced by does not cut the sequence that the proteic proteolytic enzyme of wild-type F can cut and replaces, and described mixture also comprises following characteristic:
(1) in the cell that imports described mixture, duplicates the ability of described geneome RNA;
(2) generation of virion is obvious in the environment in the host reduces or shortage; With
(3) under the condition that described proteolytic enzyme exists, with the ability of described RNA importing with the cell kind of the cells contacting of transfection composite.This mixture also claims carrier owing to have replicator group RNA and it is transferred to the function of adjacent cells in the present invention.Term " carrier " refers to nucleic acid is transferred to the carrier of cell.
More specifically, above-mentioned mixture comprise paramyxovirus geneome RNA and with this RNA bonded viral protein.Mixture of the present invention can be that ribonucleoprotein (RNP) is formed by for example paramyxovirus geneome RNA and viral protein.RNP can import target cell, for example with required transfection reagent combination.More specifically, this RNP comprises the paramyxovirus geneome RNA, N albumen, the proteic mixture of P albumen and L.When RNP was imported into cell, the effect of viral protein caused transcribing from geneome RNA the cistron of coding viral protein; In addition, genome itself is reproducible, and produces filial generation RNP.Duplicating of geneome RNA can be by using RT-PCR, the increase of detection RNA copy numbers such as Northern hybridization and confirming.
More preferably, above-mentioned mixture makes paramyxovirus virus particle.Term " virion " refers to the small-particle that contains nucleic acid that the effect by viral protein discharges from cell.Virion can be a various forms, and is for example spherical or shaft-like, according to viral species and difference.They are more much smaller than cell, and approximately 10nm arrives about 800nm usually.Paramyxovirus particulate structure makes above-mentioned RNP comprise geneome RNA and viral protein, and is sealed by lipid film (or coating).Virion can show or not show infectivity (seeing below).For example, some virions did not show infectivity originally, but infectious through obtaining after the special processing.
Term " paramyxovirus geneome RNA " refers to and can form RNP and use these albumen from the genomic expression gene with paramyxovirus albumen, with replicating nucleic acid and form the RNA of filial generation RNP.The genome of paramyxovirus is the minus strand single stranded RNA, is a kind of RNA with antisense pattern-coding gene.Usually, the paramyxovirus genome comprises and is positioned at 3 ' leader and 5 ' and trails the virogene that comprises antisense series between the district.Between the open reading frame (ORFs) of every kind of gene, there are a series of sequences: transcription termination sequence (E sequence), intervening sequence (I sequence), and transcriptional initiation sequence (S sequence).Therefore, the RNA of every kind of gene ORF of coding is transcribed into isolating cistron.The geneome RNA that comprises in the carrier of the present invention coding (with the antisense pattern) nucleocapsid (N), phosphorescent substance (phosphor) are (P) and big (L) albumen.These albumen are that the genetic expression and the autonomous expression of described RNA self of RNA coding is necessary.In addition, described RNA merges (F) albumen with the antisense orientation coding, and it induces RNA to be diffused into the necessary cytolemma fusion of adjacent cells.Preferably, geneome RNA is further with antisense orientation coding hemagglutinin-neuraminidase (HN or H) albumen.Yet in some cells, HN albumen is not to infect necessary (Proc.Natl.Acad.Sci.USA 82 (4), 978-982,1985 for Markwell, M.A. etc.), and infects and can realize by independent F albumen.In addition, carrier can use and come cells infected with cell bonded albumen and F albumen except that HN.Therefore, carrier of the present invention can use the geneome RNA of the HN gene of not encoding to make up.
The common following expression of the gene of paramyxovirus subfamily virus: the N gene also claims " NP " usually.
Respirovirus Rubulavirus Morbillivirus | NP NP NP | ?P/C/V ?P/V ?P/C/V | M M M | F F F | HN HN H | - (SH) - | L L L |
For example, the database login of gene nucleotide series that is categorized as the Sendai virus of Paramyxoviridae Respirovirus number is: the NP gene is M29343, M30202, M30203, M30204, M51331, M55565, M69046 and X17218; The P gene is M30202, M30203, M30204, M55565, M69046, X00583, X17007 and X17008; The M gene is D11446, K02742, M30202, M30203, M30204, M69046, U31956, X00584 and X53056; The F gene is D00152, D11446, D17334, D17335, M30202, M30203, M30204, M69046, X00152 and X02131; The HN gene is D26475, M12397, M30202, M30203, M30204, M69046, X00586, X02808 and X56131; And the L gene is D00053, M30202, M30203, M30204, M69040, X00587 and X58886.The accession number of the virogene of other encoding viral is as follows: the N gene is AF014953 (CDV), X75961 (DMV), D01070 (HPIV-1), M55320 (HPIV-2), D10025 (HPIV-3), X85128 (Mapuera), D86172 (mumps virus), K01711 (MV), AF064091 (NDV), X74443 (PDPR), X75717 (PDV), X68311 (RPV), X00087 (SeV), M81442 (SV5), and AF079780 (Tupaia); The P gene is X51869 (CDV), Z47758 (DMV), M74081 (HPIV-1), X04721 (HPIV-3), M55975 (HPIV-4a), M55976 (HPIV-4b), D86173 (mumps virus), M89920 (MV), M20302 (NDV), X75960 (PDV), X68311 (RPV), M30202 (SeV), AF052755 (SV5), and AF079780 (Tupaia); The C gene is AF014953 (CDV), Z47758 (DMV), M74081 (HPIV-1), D00047 (HPIV-3), ABO16162 (MV), X68311 (RPV), AB005796 (SeV), and AF079780 (Tupaia); The M gene is M12669 (CDV), Z30087 (DMV), S38067 (HPIV-1), M62734 (HPIV-2), D00130 (HPIV-3), D10241 (HPIV-4a), D10242 (HPIV-4b), D86171 (mumps virus), AB012948 (MV), AF089819 (NDV), Z47977 (PDPR), X75717 (PDV), M34018 (RPV), U31956 (SeV), and M32248 (SV5); The F gene is M21849 (CDV), AJ224704 (DMV), M22347 (HPN-1), M60182 (HPIV-2), X05303 (HPIV-3), D49821 (HPIV-4a), D49822 (HPIV-4b), D86169 (mumps virus), AB003178 (MV), AF048763 (NDV), Z37017 (PDPR), AJ224706 (PDV), M21514 (RPV), D17334 (SeV), and AB021962 (SV5); HN (H or G) is AF112189 (CDV), AJ224705 (DMV), U709498 (HPIV-1), D000865 (HPIV-2), AB012132 (HPIV-3), M34033 (HPIV-4A), AB006954 (HPIV-4B), X99040 (mumps virus), K01711 (MV), AF204872 (NDV), Z81358 (PDPR), Z36979 (PDV), AF132934 (RPV), U06433 (SeV), and S76876 (SV-5).Every kind of virus is known more than one strains, and different strain can have the gene that comprises the sequence except that sequence shown in above.
The ORF of these viral proteins is placed in antisense orientation by the above-mentioned E-I-S on the geneome RNA.On geneome RNA, nearest ORF only needs to be positioned at S sequence between 3 ' leader sequence district and the ORF from 3 ' end, and does not need E and I sequence.On the other hand, nearest ORF only needs to be positioned at 5 ' the E sequence of trailing between district and the ORF from geneome RNA 5 ' end, and does not need I and S sequence.For example using, the IRES sequence can be transcribed into identical cistron with two kinds of ORF., in this case, do not need the E-I-S sequence between these two ORF.In the wild-type paramyxovirus, typical R NA genome has 3 ' leader sequence, then is the antisense orientation N that encodes successively, P, and M, F, next the sequence of the proteic six kinds of ORF of HN and L is being 5 ' to trail the district at the other end.On geneome RNA of the present invention, the structure of virogene is not limited thereto; Yet, the N that preferably will encode successively, P, (M) F, the proteic ORF of HN and L places after the 3 ' leader, is then 5 ' to trail the district, and this is similar to wild-type virus.In the paramyxovirus of particular type, the number of virogene is not 6.Yet even in this case, what the position of every kind of virogene can be to above-mentioned wild-type is similar, the maybe change that can do to suit.The proteic ORF of M will be described below.Yet, carrier embodiment according to the present invention, this ORF can be excluded or codified sudden change M albumen.In addition, in another embodiment of carrier of the present invention, the proteic cleavage site of the F of genome encoding is modified to a kind of sequence, and it can be able to not be cut the proteic proteolytic enzyme cutting of wild-type F (hereinafter).Geneome RNA of the present invention is one or more heterologous gene of codified also.Any goal gene that need express in target cell also can be used as heterologous gene.Described heterologous gene preferably inserts the site in the genome non-coding region.For example, it can insert 3 ' leader sequence and between 3 ' terminal nearest viral protein ORF, insert between each viral protein ORF, and/or inserts from 5 ' terminal nearest viral protein ORF and 5 ' and trail between the district.In M gene defection type genome, can insert defect area.When heterologous gene was transferred to paramyxovirus, the chain length that preferably places the segmental polynucleotide of insertion of genome to have was 6 multiple (Journal ofVirology 67 (8), 4822-4830,1993).The E-I-S sequence is between heterologous gene that inserts and virus O RF.Alternatively, heterologous gene can insert by IRES.
The expression of heterologous genes level can be by being added on upstream region of gene (minus strand 3 ' side) the type of transcriptional initiation sequence regulate (WO 01/18223).In addition, expression level can be regulated according to the position that heterologous gene inserts in the genome.Heterologous gene is near more from minus strand 3 ' end, and this expression of heterologous genes level is just high more; Similarly, heterologous gene is near more from 5 ' end, and its expression level is just low more.Therefore, the insertion site of heterologous gene can be regulated aptly, with obtain required allogeneic gene expression level and with the best of breed of upstream and downstream gene of coding viral protein.Usually, high expression level is considered to favourable to heterologous gene.Therefore, heterologous gene preferably links to each other with efficient transcriptional initiation sequence, and inserts near the minus strand genome 3 ' end.More specifically, it preferably inserts 3 ' leader and holds between the nearest viral protein ORF from 3 '.Optional, heterologous gene can insert from the virogene ORF of the nearest D of 3 ' end and inferior near gene ORF between.Otherwise, when preferred metastatic gene high expression level, expression levels can reduce by the following method from virus vector: for example the on position with gene in the carrier is designed to as far as possible near the genomic 5 ' side of minus strand, perhaps use to have inefficient transcriptional initiation sequence, to produce suitable effect.
Any virogene that is included in the carrier of the present invention can be from modifying wild type gene, thereby for example reduce the immunogenicity of viral protein, perhaps strengthens rna transcription and duplicating efficiency.Particularly, in paramyxovirus vector, for example transcribe or copy function can strengthen by modifying at least a following replicator: N, P and L gene.Structural protein HN comprises hemagglutinin and neuraminic acid enzymic activity.If for example hemagglutinin activity can be lowered, the stability of virus can strengthen in the blood.On the other hand, if for example the activity of neuraminidase can be modified, can regulate infectivity.In addition, film fusion and/or particle formation ability can be regulated by modifying F albumen and the structural domain except that cleavage site thereof.For example, by the antigen presentation epi-position of possible cell-surface antigens molecule (for example F and HN albumen) is analyzed, can produce the virus vector that these albumen is had the antigen presentation ability that weakens.
Carrier with defective auxiliary gene can be used as carrier of the present invention.For example, by knocking out the V gene, the SeV auxiliary gene, SeV to the host for example mouse pathogenic can obviously the reduction and do not damage gene in culturing cell expression and duplicate (Kato, A. etc., J.Virol.71,7266-7272,1997; Kato, EMBO such as A. J.16,578-587,1997; Curran, J. etc., WO 01/04272, EP 1067179).This attenuated carrier preferably is used in the body as virus vector and the non-virulent gene of ex vivo (ex vivo) shifts.
In preferred embodiments, mixture of the present invention comes down to homogeneous.The mixture of term " homogeneous in fact " is meant and is not the paramyxovirus RNP or the isolating mixture of virion of mixture of the present invention that it is not a mixture of the present invention.That is, the present invention in fact the mixture of homogeneous do not comprise and have other paramyxovirus RNP or virion that particle forms ability.This paper term " particle formation ability " is meant that carrier discharges the ability of infectivity and/or non-infectious virus particle (being called virus-like particle) in the cell of this viral vector infection, and this process is " secondary release ".In addition, mixture of the present invention with F albumen cleavage site of modification does not comprise following viral RNP, the proteic gene of F that comprises encoding wild type F albumen or have the fusion-activity similar in the described viral RNP genome to wild-type, and described mixture does not comprise yet and contains this genomic virion.
According to embodiment of the present invention, the proteic cleavage site sequence of F of said gene group RNA coding is replaced by sequence cleaved.Paramyxovirus F albumen (F0) this in primitive form showed cell film fusion-activity not.Yet when the cutting segmental cell outskirt of F0 (or outer structure territory of virion), it shows fusion-activity.Two kinds of F protein fragments that cutting produces, promptly N-terminal side and C-terminal lateral plate section are respectively F1 and F2, and it links to each other by disulfide linkage.Cutting F albumen relates to the albumen at the structural domain cutting film F in the cytolemma outside, thereby the fragment that causes having cytogamy power produces.Term " cleavage site sequence " finger protein enzyme cuts required aminoacid sequence or necessary residue wherein.The proteic cleavage site of paramyxovirus F is known in the art, and can be by for example furin (furin) cutting of trypsin-like intracellular protease.
Furin is present in the big cellulous golgi body usually.The identification motif of furin is Arg-X-Lys/Arg-Arg (RXK/RR) (representing arbitrary amino acid by two seed amino acids that "/" separates).Highly pathogenic people PIV3 (RTKR), SV5 (RRRR), mumps virus (RHKR), NDV (toxicity strain) high toxicity strain (RQR/KR), Measles virus (RHKR), the cleavage site of RS virus (RKRR) etc. comprises the sequence of these motifs.The F albumen of high toxicity strain is to the proteolytic enzyme sensitivity in all cells, and the virus of this strain is carried out multistep propagation by cutting F albumen in all organs.Therefore, the infection of these viruses is fatal.On the other hand, have hypotoxic Sendai virus (PQSR), people PIV1 (PQSR), and NDV (nontoxicity strain) hypotoxicity strain (K/RQG/SR) do not contain this motif, only contains Arg (it is the serine stretch protein enzyme recognition sequence).The sequence of paramyxovirus F albumen cleavage site is exhaustive analysis, and those skilled in the art can they (for example see " Uirusu-gaku (Virology) " according to document identification, Hatanaka, M.ed., Tokyo, Asakura Shoten, 247-248,1997).
In addition, cleavage site can be tested and appraised and can make the cell of paramyxovirus growth, and the proteic cleavage site of F of the virus of growth or be tested and appraised at these cells in the tissue, individuality etc. is expressed them in the individuality etc. and the proteic cleavage site of F collected and confirming.Alternatively, F albumen can by with the cutting this proteic cleavage site proteolytic enzyme for example the F albumen of trypsin treatment cell surface expression manually cut or identify.According to embodiment of the present invention, F albumen comprises the modification type F albumen cleavage site that can be cut by another kind of proteolytic enzyme.For this reason, the proteic natural cutting sequence of F can lack, and/or insert one or more amino acid and modify, so that reconstruct can be by sequence cleaved by replacing.Modification to aminoacid sequence can be undertaken by traditional site-directed mutagenesis method.In addition, the F albumen of modification can keep being cut the characteristic (seeing embodiment) of the proteic proteolytic enzyme cutting of wild-type F.The proteic carrier of this modification F of encoding is compared with wild-type F albumen has the enhanced protease-dependent tropism.
Those sequences that can be cut by preferred protease by sequence cleaved.For example, can use can be by the sequence (WO 01/20989) of selective expression's proteolytic enzyme cutting in the tissue of the preferred target that imports as carrier or cell.Comprise and can be had under the condition of this protease activity by use by the F protein gene design vector of the sequence of proteolytic enzyme (activity being arranged in target tissue) cutting as above-mentioned, carrier breed and transspecific to the superperformance of peripheral cell.For example, can make up the carrier that only specificity is soaked in described tissue by using the cutting sequence of specific expressed or activatory proteolytic enzyme in particular organization.In addition, by utilizing the cutting sequence of (for example disease) under given conditions specific expressed or activatory proteolytic enzyme, can be structured in the carrier that (for example only in the specified disease damage) specificity is soaked under this condition.All can utilize with extracellular proteolytic enzyme in the cell.For example, be secreted into extracellular proteolytic enzyme, and be preferred at the proteolytic enzyme of film surface expression.Alternatively, selected proteolytic enzyme can be the adequate proteins enzyme of (translating in the cell surface secretion in cell) in any F of being present in protein transport approach.
Numerous disease is that the unconventionality expression by proteinase gene causes, and comprises, for example belongs to the disease of all types common disease, metabolic trouble for example, and circulatory diseases, inflammation and Immunological diseases infect, and malignant tumour.Object lesson comprises the calpain in the muscular dystrophy, the destruction of the ubiquitin protein in autoimmune disease and the sacred disease-proteasome system, the expression of neprilysin reduces in the senile dementia, MMP in cancer infiltration and the transfer expresses and strengthens, pathogenic agent source proteolytic enzyme from the pathogenic agent microorganism, serine protease in the hemostatic mechanism, and the aminopeptidase in the placenta.
Calpain is calcium dependent L-Cysteine HCL Anhydrous, and it is studied as a kind of enzyme that participates in amyotrophic mytolin hydrolysis.Calpain is through specific activate mechanism, be that it is owing to combination is activated with calcium, and calpain is considered to excite the proteolysis of muscle by albumen being carried out degrade in the limited cell, described albumen, α-Ji Dongdanbai for example, troponin and connetin keep very important for structure of skeletal muscles.For the cutting sequence (Karlsson, J.O. etc., Cell Biol.Int.24,235-243,2000) of calpain, Leu-Leu-Val-Tyr is as the degraded substrate.
Ubiquitin protein-proteasome system is selectivity and activated intracellular proteolysis mechanism, and is signal transduction, the important cells function regulation system of cell cycle etc.Ubiquitin protein is made up of 76 amino acid, and by ubiquitin protein activating enzymes (E1), ubiquitin protein desmoenzyme (E2), and ubiquitin protein ligase (E3) thus carry out continuous catalytic reaction and albumen covalent attachment.The albumen of ubiquitin proteinization is degraded by the 26S proteasome.The known hundreds of kind E3 enzyme that exists, but and rough segmentation be that HECT type and RING refer to type.A large amount of diseases show that these enzymes wherein have abnormal activity.For example Leu-Leu-Val-Tyr is used as the degraded substrate (Reinheckel, T. etc., Arch.Biochem.Biophys.377,65-68,2000) of 26S proteasome.
Joint disease, chronic rheumatoid arthritis for example, thus cause dyskinesia by destroying articular cartilage tissue.The regenerative power of joint cartilage is very low, and because extracellular matrix degradation makes the cartilage structure destruction cause carrying out property destruction of joint.In this cartilage cell epimatrix destroyed, " decomposition of protein (disintegrin) and the metalloprotease " of MMP and genes involved family (ADAM) relation between the molecule obtained paying close attention to recently.Particularly, ADAMTS (ADAM) the molecule necessary enzyme (Science 284 for Tortorella, M.D. etc., 1664-1666,1999) of cartilage proteoglycan (aggrecan) that is considered to degrade with thrombospondin motif.Identified the sequence (Tortorella, M.D. etc., J.Biol.Chem.275,18566-18573,2000) that causes the degraded of aggrecan by ADAMTS.
Use the recognition sequence of these proteolytic enzyme, can prepare expressing the tissue-specific carrier of these proteolytic enzyme.
The especially preferred proteolytic enzyme cutting of the present invention sequence comprises its activity those proteolytic enzyme of enhanced in cancer.By making up the carrier that uses this sequence, can make up the carrier of specific infection cancerous tissue.This carrier is very useful as the gene transfer vector that is used for cancer therapy.The proteolytic enzyme that has " enhanced activity " in cancer is to compare with the activity in corresponding healthy tissues or the normal cell, shows the active proteolytic enzyme of enhanced in particular cancer tissue or cancer cells.Wherein term " enhanced activity " comprises proteolytic enzyme expression level and/or himself active rising.Proteolytic enzyme is expressed and can be measured by the following method: for example Northern hybridization (using the proteinase gene fragment as probe), RT-PCR (using the primer of specific amplification proteinase gene), perhaps Western trace, ELISA, and immunoblotting (use protease antibody).Protease activities can be measured by degradation experiment by using protease substrate.Known intravital many protease activities are regulated by various known factors.The protease activities level can be measured by the expression level of measuring these supressors.
For example, extracellular matrix (ECM) degrading enzymatic activity especially strengthens (Nakajima, M.and Chop, A.M., Semin.Cancer Biol.2,115-127,1991 in metastatic carcinoma; Duffy, M.J., Clin.Exp.Metastasis 10,145-155,1992; Nakajima, M. " Extracellular matrix degradationenzyme (Japanese) ", Seiki, M.ed., " Malignant transformation and metastasis ofcancer ", Chugai Igaku, 124-136,1993).In animal, comprise albumen for example the matrix of collagen protein and protein-polysaccharide in the intercellular substance, form.The concrete known composition of extracellular matrix comprises collagen protein, fibronectin, ln, cytotactin, elastin, protein-polysaccharide etc.These ECM have the adhesion of regulating cell, grow, and the function of transfer etc., and by combine adjusting its distribution and active function with the solvable factor.The ECM degrading enzyme plays an important role in metastasis of cancer to the infiltration of ECM, and many reports show that ECM degrading enzyme inhibition can suppress transfer and the infiltration to basilar membrane.The carrier of the sick infiltrating carcinoma tissue of specific infection can be modified F albumen by coding and make up, and described F albumen has the recognition sequence that the ECM degrading enzyme cuts on its cleavage site.
According to the kind of the catalytic residue in its active centre, the ECM degrading enzyme is categorized into aspartate protease, L-Cysteine HCL Anhydrous, serine protease, and metalloprotease.Particularly, for intravital ECM degraded, serine protease and metalloprotease (it is the neuroprotein enzyme) play an important role.Serine protease is distributed widely in microorganism, and animal is in the plant.In higher animal, they participate in multiple biological respinse, comprise for example digestion of food, blood coagulation, fibrinolysis, immune complementary reaction, cell proliferation, the individual generation, differentiation, aging, metastasis of cancer etc.In addition, the activity of serine protease is regulated by serpin (serpin) (being present in usually in blood plasma and the tissue) usually, and the quantitative or qualitative unusual known inflammation that causes of this inhibition.
The serine protease of degraded ECM comprises cathepsin G, elastin, plasmin, plasminogen activator, tumour trypsinase, Chymotrypsin sample neuroprotein enzyme, zymoplasm etc.Plasmin is by producing exist intravital Profibrinolysin to carry out limited degraded with inactive form.Described limited degraded is by plasminogen activator (PA) and inhibition thereof, and plasminogen activator inhibition (PAI) is regulated.PA comprises and organizes PA (tPA), and it participates in blood coagulation, and urokinase PA (uPA), and it participates in ECM degraded (Blasi, F.and Verde, P., Semin.Cancer Bio.1,117-126,1990).The function of these two kinds of PA is suppressed by combining with PAI that (Proc.Natl.Acad.Sci.USA 87 for Cajot, J.F. etc., 6939-6943,1990; Baker, M.S. etc., Cancer Res.50,4676-4684,1990).UPA is working when combining with the uPA acceptor (uPAR) of cell surface.Plasmin degraded fibronectin, cytotactin, ln etc., but direct degrade collagen albumen.Yet it activates the collagen protein degrading enzyme by the part of the precursor of this enzyme of cutting, thus indirect degrade collagen albumen.These enzymes usually show the enhanced activity in cancer cell, and relevant well with transfer ability (Int.J.Cancer 48 for Tanaka, N. etc., 481-484,1991; Boyd, D. etc., Cancer Res.48,3112-3116,1988; Hollas, W. etc., Cancer Res.51,3690-3695,1991; Correc, P. etc., Int.J.Cancer 50,767-771,1992; Ohkoshi, M. etc., J.Natl.Cancer Inst.71,1053-1057,1983; Sakaki, Y. etc., New Horizon for Medicine (Japanese) 17,1815-1821,1985).
Cutting sequence to uPA and tPA has been carried out many researchs (Rijken, D.C. etc., J.Biol.Chem.257,2920-2925,1982; Wallen, P. etc., Biochim.Biophys.Acta 719,318-328,1982; Tate, K.M. etc., Biochemistry 26,338-343,1987) normally used substrate sequence comprises VGR (Dooijewaard, G., and KLUFT, C., Adv.Exp.Med.Biol.156,115-120,1983) and substrate S-2288 (Ile-Pro-Arg) (Matsuo, O. etc., Jpn.J.Physiol.33,1031-1037,1983).54 kinds of fluorogenic substrates of uses such as Butenas are identified the sequence (Biochemistry 36 for Butenas, S. etc., 2123-2131,1997) to the tPA high special, and show that tPA has high degrading activity to two kinds of sequence FPR and VPR.Therefore, these sequences are that the present invention is especially preferred.
Other ECM degrading enzyme is categorized as L-Cysteine HCL Anhydrous or aspartate protease.They also participate in cancer metastasis and infiltration.Object lesson comprises: cathepsin B (Sloane, B.F., Semin.Cancer Biol.1,137-152,1990), and it utilizes ln, protein-polysaccharide, fibronectin, collagen protein, tropocollagen enzymes (by the degraded activation) etc. are as substrate; It utilizes elastin cathepsin L (Kane, S.E.and Gottesman, M.M., Semin.Cancer Biol.1,127-136,1990), protein-polysaccharide, and fibronectin, ln, elastoser (activatory) etc. are as substrate; And cathepsin D (Rochefort, H., Semin.Cancer Biol.1,153-160,1990), it utilizes ln, fibronectin, and protein-polysaccharide, and cathepsin B and L (activatory) are as substrate.Cathepsin B and L are in mammary cancer (Spyratos, F. etc., Lancet ii, 1115-1118,1989; Lah, T.T. etc., Int.J.Cancer 50,36-44,1992) and colorectal carcinoma sarcoma (Int.J.Cancer 49 for Shuja, S. etc., 341-346,1991) in high expression level especially.They destroy with equilibrated between its supressor and vicious transformation relevant (Sloane, B.F., Semin.Cancer Biol.1,137-152,1990 of cancer according to prompting; Kane, S.E.and Gottesman, M.M., Semin.Cancer Biol.1,127-136,1990).
Metalloprotease is a metalloenzyme, and its active centre comprises for example Zn of metallic element.The metalloprotease of report comprises caspase, aminopeptidase, tonin, and collagenase.Metalloprotease for degraded ECM has been reported 16 kinds or more matrix metalloproteinases (MMP).Representative MMP comprises collagenase-1 ,-2 and-3 (MMP-1 ,-8, with-13), gelatin enzyme A and B (MMP-2 and-9), stromelysin (stromelysin) 1,2 and 3 (MMP-3,-10 and-11), matrilysin (MMP-7), and film metalloprotease (MT1-MMP and MT2-MMP).Usually, the active centre of MMP is Zn
2+, and it shows that enzymic activity needs Ca
2+In addition, MMP is secreted (being called potential MMP or ProMMP) as the potential enzyme, and it activates in the extracellular, and the multiple ECM that exists in the degraded body.In addition, the activity of MMP is suppressed by common inhibition, and promptly metalloprotease organizes inhibition (TIMP).Other example of ECM degradation property metalloprotease comprises the proteic aminopeptidase of degraded ECM composition, for example aminopeptidase N/CD13 and aminopeptidase B.According to the experiment of using inhibition, report that all these proteolytic enzyme and cancer have much relations.
In these proteolytic enzyme, collagenase (for example, MMP-1 ,-8 and-13) is at specific site cutting fibre collagen, i.e. I, II and III Collagen Type VI molecule.Known two kinds of gelatinases, i.e. gelatin enzyme A (MMP-2) and gelatinase B (MMP-9).Gelatinase also claims IV Collagen Type VI enzyme, and except degraded IV collagen type (main component of basilar membrane), also degrade collagen type v and elastin.In addition, also known MMP-2 is at the position cutting type i collagen identical with MMP-1.MMP-9 is degraded layer Fibronectin and fibronectin not; The above-mentioned albumen but MMP-2 degrades.Stromelysin (MMP-3 and-10) accept and degrade substrate and protein degradation polysaccharide widely; III, IV and IX Collagen Type VI; Ln; And fibronectin.Stromelysin (MMP-7) is the molecule that lacks Hemopexin (hemopexin) structural domain, and it has identical substrate specificity with MMP-3, and has the activity of extra high protein degradation polysaccharide and elastin.Membranous type metalloprotease (MT-MMPs) (MT1-MMP, MT2-MMP, MT3-MMP, MT4-MMP, MT5-MMP, and MT6-MMP) comprises and strides membrane structure.MT-MMP has the insertion sequence (about ten amino acid) between propetide district and avtive spot.Described insertion sequence comprises Arg-Xaa-Lys-Arg (Xaa is an amino acid), and in the transport process of cytolemma, described insertion sequence activates by the cutting of furin (processive enzyme in the cell).Known MT-MPP comprises MT1-MMP (MMP-14), MT2-MMP (MMP-15), MT3-MMP (MMP-16), MT4-MMP (MMP-17), MT5-MMP (MMP-23), and MT-6-MMP (MMP-25).For example, the MT1-MMP I that degrades, II and III Collagen Type VI, and MT3-MMP degraded III Collagen Type VI.
The overexpression of known MMP extensively sees in the cancer cells.They be categorized into cause by cancer self and cause by the cancer mesenchymal cell.For example, interstitial collagen degradation property collagenase (MMP-1) participates in the infiltration of cancer cells, and transitivity relevant (Wooley, D.E., CancerMetastasis Rev.3,361-372,1984 of its activity level and colorectal carcinoma; Tarin, D. etc., Br.J.Cancer 46,266-278,1982).The activity of IV Collagen Type VI enzyme (MMP-2 and MMP-9) and various epitheliomatous transfer ability height correlation (Liotta, L.A.and Stetler-Stevenson, W.G., Semin.Cancer Biol.1,99-106,1990 in addition; Nakajima, M.Experimental Medicine 10,246-255,1992).In addition, the pernicious change relevant (Matrisian, L.M.and Bowden, G.T., Semi.Cancer Biol.1,107-115,1990) of also known stromelysin (MMP-3) and skin epithelioma (dermal epithelial tumor).Stromelysin-3 (MMP-11) according to observations in mammary cancer and colorectal carcinoma high expression level (Nature 348 for Basset, T. etc., 699-704,1990; Porte, H. etc., Clin.Exp.Metastasis 10 (Suppl.1), 114,1992).
Many cutting substrates of known MMP.The example of the substrate sequence that can be degraded by all MMP comprises PLGLWAR (Bickett, D.M. etc., Anal.Biochem.212,58-64,1993), GPLGMRGL (Deng, S.J. etc., J.Biol.Chem.275,31422-31427,2000), PQGLEAK (Beekman, B. etc., FEBS Lett.390,221-225,1996), RPKPVEWREAK (Beekman, B. etc., FEBS Lett.418,305-309,1997), and PLALWAR (Jacobsen, E.J. etc., J.Med.Chem.42,1525-1536,1999).MMP-2 and-9 cutting substrate comprise PLGMWS (Netzel-Arnett, S. etc., Anal.Biochem.195,86-92,1991) and PLGLG (Biochemistry 24 for Weingarten, H. etc., 6730-6734,1985).
Recently, the scanning of the peptide library of phage display has illustrated MMP-9 (Kridel, S.J. etc., J.Biol.Chem.276,20572-20578,2001), MMP-2 (Chen, E.I. etc., J.Biol.Chem.277,4485-4491,2002), and MT1-MMP (Kridel, S.J. etc., J.Biol.Chem.In JBC Papersin Press, April 16,2002, Manuscript M111574200) degraded substrate sequence.In these articles, the aminoacid sequence of evaluation is according to being divided into four groups by the existence of the degradation capability of three kinds of MMP or disappearance.IV group comprises can be by the sequence of MT1-MMP specificity degraded, and for the sequence that lacks Arg, VFSIPL and IKYHS sequence are considered to by MMP-9 and MMP-2 degraded, but can be by the substrate of independent MT-MMP degraded.
For example, the cutting sequence of MMP-9 is that (wherein, X represents any residue to Pro-X-X-Hy; Hy, hydrophobic residue), especially preferred Pro-X-X-Hy-(Ser/Thr).Non-specific example comprises Pro-Arg-(Ser/Thr)-Hy-(Ser/Thr) (cutting out between present X and the Hy residue).The example of Hy (hydrophobic residue) comprises Leu, Val, and Tyr, Ile, Phe, Trp, and Met, but be not limited thereto.Other cutting sequence (for example, the group I in the row document as follows, II, IIIA, and IIIB have also been identified; Kridel, S.J. etc., J.Biol.Chem.276,20572-20578,2001), and any desired sequence all can be used.Above-mentioned Pro-X-X-Hy can be used for MMP-2, and in addition, also can use (Ile/Leu)-X-X-Hy, Hy-Ser-X-Leu, and His-X-X-Hy (sees the group I in for example following document, II, III, and IV:Chen, E.I. etc., J.Biol.Chem.277,4485-4491,2002).MMP family comprises MMP-7, MMP-1, MMP-2, MMP-9, MMP-3, and the cleavage site of MT1-MMP (MMP-14) can suit to select (Turk, B.E. etc. by proteic sequence of reference natural substrate or screening peptide library, Nature Biotech.19,661-667,2001; Woessner, J.F.and Nagase, H., Matrix metalloproteinases andTIMPs. (Oxford University Press, Oxford, UK, 2000); Fernandez-Patron, C. etc., Circ.Res.85,906-911,1999; Nakamura, H. etc., J.Biol.Chem.275,38885-38890,2000; McQuibban, G.A. etc., Science 289,1202-1206,2000; Sasaki, T. etc., J.Biol.Chem.272,9237-9243,1997).Eight amino acid sequence P4-P3-P2-P1-P1 '-P2 '-P3 '-P4 ' (cutting out between present P1 and the P1 ') example of cleavage site comprises VPMS-MRGG (corresponding MMP-1), RPFS-MIMG (corresponding MMP-3), VPLS-LTMG (corresponding MMP-7), and IPES-LRAG (corresponding MT1-MMP), but be not limited thereto.PLAYWAR (Nezel-Amett, S. etc., Anal.Biochem.195,86,1991) is an example of the cutting sequence of MMP-8.The various synthetic substrate of MMP can get, and can compare (seeing Calbioehem catalog for example, every kind of MMP substrate among the Merck) mutually.
Usually, the MMP in the tissue is active to be regulated by following process: latent enzyme produces, the latent enzyme activation, and inhibition is to the inhibition of organized enzyme.MMP is active to participate in various physiological phenomenons, for example grows and ovulate fertilization, implantation uterine endometrium, and wound healing.The MMP activity is regulated the not normal various pathology that cause, and comprises for example cancer cell infiltration and transfer, sacroiliitis, gingivitis, arteriosclerosis, tumour and fibrosis.For example, the gelatinase of known degraded basement membrane components (MMP-2 and-9) is very important for cancer metastasis.MMP-2 cuts former MMP-2 (pro MMP-2) by MT1-MMP and activates.On the other hand, have another activated channel of MMP-9, wherein first plasmin is to activate former MMP-3 by uPA from the generation of Profibrinolysin, and activatory MMP-3 activates former MMP-9 then.This approach participates in metastasis of cancer.For carrier of the present invention being developed to the carrier of target on cancer, especially can import sequence, as the proteic cleavage site of F by the proteolytic enzyme cutting of described participation metastasis of cancer.The example of this proteolytic enzyme comprises MMP-2, MMP-9, and uPA, MMP-3, and MT1-MMP more specifically are MMP-2, MMP-9 and uPA.
Proteolytic enzyme is cut sequence when incorporating F albumen into, and target protein enzyme cutting sequence is inserted into the proteic cleavage site of F, and the trypsin-like proteolytic enzyme that exists before preferred cutting site is preferably by degeneracy.For realizing this purpose, the amino acid around the cleavage site of trypsin-like proteolytic enzyme originally can be substituted by target protein enzyme cutting sequence (recognition sequence).Cut by the target protein enzyme when F albumen of modifying is expressed in cell, and keep the proteic cytolemma fusion-activity of F.The amino acid approaching with the N-terminal of F1 fragment (by F albumen is cut generation) is considered to play an important role in cytolemma merges.Therefore, unless cutting is suppressed, the design of cutting sequence makes that preferably the segmental N-terminal sequence of F1 after the cutting is proteic identical with wild-type F.In addition, induce effective cleavage reaction for joint being inserted cleavage site, F1 compares with wild-type, preferably the amino acid of minimum need be added the segmental N-terminal of cutting back F1.For example, F1 compares with wild-type, after cutting, have below the five amino acid, and preferred four below the amino acid, or more preferably three amino acid following (for example one, two, or three amino acid) is added into N-terminal.For example, the present invention has illustrated after cutting, Met-Thr-Ser (SEQ ID NO:1) is added modify cutting function or the cytolemma fusion reaction that the proteic F1 of F segmental N-terminal in back does not damage MMP.Therefore, described cutting sequence preference is designed so that Met-Thr-Ser, or its conservative amino acid that replaces sequence or comprise its partial sequence, is added into the N-terminal of F1 after cutting.Term " conservative replace " refers to that its amino acid side chain has the replacement between the amino acid of similar chemical property.Particularly, Met can replace with Ile or Val, and Thr can replace with Ser or Ala, and Ser can use Ala, Asn, or Thr replacement.Replacement at each position upper amino acid can independently be carried out.
The more specifically example of the preferred cutting sequence of MMP-2 and MMP-9 comprises the sequence that comprises Pro-Leu/Gln-Gly (SEQ ID NO:2).This sequence is the sequence (Netzel-Arnett, S. etc., Anal.Biochem.195,86-92,1991) that is commonly used for substrate in the synthetic substrate, and F albumen is designed so that this sequence is positioned at the segmental C-terminal of F2 after the F albumen that cutting is modified.For this reason, after the cutting of wild-type F albumen, the sequence that comprises the involved Pro-Leu/Gln-Gly of the amino acid whose sequence of F2 fragment C-terminal replaces.One or more amino acid whose initiation sequence of the segmental C-terminal of the corresponding proteic F2 of F is suitably lacked, and subsequently Pro-Leu/Gln-Gly is inserted (that is, replacing).The amino acid number that is lacked equates (for example three amino acid) with the amino acid number that is inserted into, perhaps can select in 0-10 amino acid whose scope.As long as it is not weakened that the cutting step of proteolytic enzyme and film merge, can prepare F albumen and make the N-terminal of F1 directly be connected in the Pro-Leu/Gln-Gly downstream.Yet in the F of Sendai virus albumen, the cutting sequence preferably links to each other by suitable transcribed spacer with the F1 fragment.The especially preferred example that comprises the cutting sequence of this transcribed spacer is those sequences that comprise Pro-Leu/Gln-Gly-Met-Thr-Ser (SEQ ID NO:3) or Pro-Leu/Gln-Gly-Met-Thr (SEQ ID NO:4).Met, Thr and Ser can conservatively replace with other amino acid.Preferred proteic example comprises the F albumen of modification, wherein from the C-terminal amino acid of the F2 after the cutting to 1-10 residue of the sequential connection of N-terminal direction (for example 1,2,3,4,5 or 6 residues), the sequence of involved Pro-Leu/Gln-Gly-Met-Thr-Ser or Pro-Leu/Gln-Gly-Met-Thr replaces.For example, for Sendai virus F albumen, optimization protein can be a kind of F albumen, segmental four the amino acid whose sequences of C-terminal of the F2 in the corresponding wild-type F albumen wherein (SEQ ID NO:5) (although the sequence difference of different strains, normally
113Pro-Gln-Ser-Arg
116↓) replaced by Pro-Leu/Gln-Gly-Met-Thr-Ser.
Any other required sequence of the present invention can be used as the cutting sequence of MMP.Use peptide library to analyze the substrate specificity (Turk, B.E. etc., Nature Biotech.19,661-667,2001) of various MMP.MMP-2 (Chen, E.I. etc., J.Biol.Chem.277 (6), 4485-4491,2002) and MMP-9 (Kridel, S.J. etc., J.Biol.Chem.276 (8), 20572-20578,2001) have been carried out detailed analysis.Especially for MMP-9, from P3 to P2 ' (P3-P2-P1-P1 '-P2 '; Cutting occurs between the P1-P1 ') consensus sequence suggestion be Pro-X-X-Hy-(Ser/Thr) (any residue of X=; The Hy=hydrophobic residue).This consensus sequence also with one of consensus sequence (Pro-X-X-Hy) coupling of recommending as MMP-2, thereby be considered to obtain specific good design to MMP-2 and MMP-9.Therefore, from this aspect, support above-mentioned sequence (Pro-Leu/Gln-Gly-Met-Thr-Ser or Pro-Leu/Gln-Gly-Met-Thr) as preferred embodiment.Particularly, the sequence preference of F albumen cleavage site comprises Pro-X-X-Hy-Thr/Ser, and more preferably comprises Pro-X-X-Hy-Thr/Ser-Thr/Ser (" Thr/Ser " refers to Thr or Ser).For example, not preferably not with Pro-X-X-Hy-Thr/Ser paired Pro-Leu-Gly-Leu-Trp-Ala and Pro-Gln-Gly-Leu-Tyr-Ala (Figure 44).By inserting F albumen cleavage site with Pro-X-X-Hy-Thr/Ser sequence paired peptide, can make up the carrier that exists MMP to show high infiltration power down.
Another example of preferred cutting sequence comprises those sequences that can be cut by plasminogen activator.The specific examples of the cutting sequence of uPA and tPA comprises the sequence that contains Val-Gly-Arg.F albumen is designed such that this sequence is positioned at the segmental C-terminal of the proteic F2 of F that the cutting back is modified.For this reason, after the cutting wild-type F albumen, comprising the amino acid whose sequence of the segmental C-terminal of F2 can be replaced by the sequence that comprises Val-Gly-Arg (SEQ ID NO:6).The preferred example of optimization protein comprises the F albumen of modification, wherein from the C-terminal amino acid of the F2 after the cutting to 1-10 residue of the sequential connection of N-terminal direction (for example 1,2,3,4,5 or 6 residues) replaced by Val-Gly-Arg or the sequence that comprises this sequence.For example, in Sendai virus F albumen, example comprises a kind of F albumen, segmental three the amino acid whose sequences of C-terminal of the F2 in the wherein corresponding wild-type F albumen (SEQ ID NO:5) (although the sequence difference of different strains, normally
114Gln-Ser-Arg
116↓ (SEQ ID NO:7)) replaced by Val-Gly-Arg.
Show F albumen after the modification that causes fusion power when having specific proteases, can utilize the experimental system (embodiment 31) of any use plasmid vector for effectively identifying.Particularly, express the transfected cell that arrives of the proteic plasmid vector of modification back F, and the cell that produces is cultivated in the presence of proteolytic enzyme to detect synplasm formation.Cut F albumen after this plasmid-encoded modification (it causes synplasm to form) with proteolytic enzyme and whether show fusion-activity to detect it.For example, for measuring the F albumen of MMP cutting, use the HT1080 cell of expressing MMP.Alternatively, MMP can be added culture systems.Use the experimental system of the present invention's exploitation, can obtain to have the F albumen of the modification that causes fusion power easily.
The proteic carrier of F that coding is modified geneome RNA contained in this carrier can be imported and by in the cell of this carrier cells transfected releasing, described process depends on the existence that the proteic proteolytic enzyme of F is modified in cutting.The proteic behavior of F of cutting causes the cytogamy between the exposing cell, and makes RNP be diffused into the cell of fusion.That is, carrier of the present invention does not form virion, yet because carrier soaks in for example above-mentioned exposing cell, it can transfer to positioned area with carrier.Described proteolytic enzyme can be in cell or the extracellular express, or can exogenously add.
The F albumen of modification provided by the invention shows that the cell that relies on concrete proteolytic enzyme causes fusion power.By utilizing this albumen, can make up the virus vector that only in the presence of proteolytic enzyme, causes cytogamy or specific infection, medicine-and gene-delivery vector liposome for example.For example, by can be by the proteic gene of modification F of proteolytic enzyme specific expressed in cancer cells cutting and the F gene (Galanis that contains the adenovirus carrier of F and HN gene, E. etc., Hum.Gene Ther.12,811-821,2001) be assembled together, can develop the carrier that can in the presence of specific proteases, cause cytogamy.In addition, for example, (Spiegel when using F and HN albumen with retrovirus pseudotyping (pseudotyping), M. etc., J Virol.72 (6), 5296-5302,1998), the carrier of target cancer cell (specific infection cancer) can use the F albumen (this albumen is by the cutting of expressed proteins enzyme in cancer) of modification to produce in building process.As above-mentioned, except carrier of the present invention, the F albumen of modification provided by the invention and their nucleic acid of coding can be used to develop the carrier of various dependent protein enzymes.
In addition, the invention provides the paramyxovirus vector of the F albumen (increased cell by disappearance tenuigenin district and caused fusion power) that comprises modification.The partial amino-acid of cytoplasmic region is lacked, and makes 0-28, preferred 1-27, and more preferably base acid in 4-27 position is present in and modifies in the proteic cytoplasmic region of back F.Term " cytoplasmic region " refers to the kytoplasm side of membranin, and in F albumen, the C-terminal district (seeing Figure 42) in its corresponding film (TM) district.For example, the proteic cytoplasmic region of F comprises the 6-20 position, preferred 10-16 position, and more preferably 13-15 amino acids, and it is compared with wild-type F albumen, shows obvious high-caliber cytogamy power.Therefore, preparation comprises the paramyxovirus vector of F albumen (its cytoplasmic region comprises about 14 amino acid) of modification, thereby obtains to have the carrier that higher cell causes fusion power with comparing with the carrier of wild-type F albumen acquisition.Preferably, 10 of the F hypoproteinosis of described disappearance or more, more preferably more than 20, more preferably more than 25, and the more preferably proteic C-terminal amino acid of the wild-type F more than 28.According to most preferred aspect, the proteic C-terminal amino acid of about 28 the wild-type F of F hypoproteinosis of cytoplasmic region disappearance.Genome comprises the paramyxovirus vector of the proteic gene of F of these cytoplasmic region disappearances of coding to be compared with traditional carrier, has higher cytogamy power, and therefore, in the cell around soaking into more forcefully.As described herein F albumen cleavage site is modified can produce the carrier that only shows high wetting capacity when having specific proteases.
The invention still further relates to by two kinds of entrained fusion roteins that spike protein constitutes of paramyxovirus.Paramyxovirus has the albumen (claiming " F " albumen) that works and the ground albumen (claiming " HN " or " H " albumen) that works in cell adhesion in cytogamy.Herein, the former is commonly referred to F albumen, and the latter claims HN albumen.These two kinds of protein expressions are fusion rotein, and it separates to express with described albumen compares, and shows the extremely strong fusion power that causes.In described fusion rotein, albumen combines by the part of its cytoplasmic region.Particularly, described fusion rotein HN (or H) albumen that comprises the F albumen that is positioned at N-terminal and be positioned at its C-terminal.When merging these albumen, all albumen all merge mutually, or alternatively, lack part or all of cytoplasmic region F albumen can and HN (or N) merge.Under latter event, be more than 5 from the proteic amino-acid residue number of the following HN of swimming over to (or H) in F albumen TM district, preferred more than 10, more preferably more than 14, and more preferably more than 20.For example when the F albumen that will lack cytoplasmic region merges with HN (or H) albumen, preferably regulate length by the C-terminal of the joint peptide adding F protein part that length is suitable.Particularly, the preferred F albumen (14 residues that comprise cytoplasmic region) that uses the cytoplasmic region disappearance that merges by any joint peptide and HN (or H) albumen.The aminoacid sequence of joint peptide has no particular limits; But preferred employing does not have the polypeptide of remarkable physiologically active, comprises that the suitable embodiment of this polypeptide sees Figure 43 (SEQ ID NO:80).
The invention still further relates to the nucleic acid of these fusion roteins of coding, and comprise these expression of nucleic acids carriers.Cause fusion power by force by these expression vector cells transfected demonstrations, and by merging the formation synplasm with peripheral cell.Expression vector has no particular limits, and comprises, for example plasmid vector and virus vector.For dna vector, preferably with for example CAG promotor (chimeric promoters that comprises avian beta-actin promotor and cmv enhancer) coupling (Gene 108 for Niwa, H. etc., 193-199,1991) of strong promoter.Express the proteic virus vector of the present invention and after transfection, produce strong the fusion in the cell.The example of suitable virus vector comprises retroviral vector, lentiviral vectors, adenovirus carrier, gland relevant viral vector, the minus-stranded rna virus carrier, herpes simplex virus vector, retroviral vector, lentiviral vectors, Semliki forest (Semliki forest) virus vector, sindbis virus carrier, vaccinia virus vector, fowlpox virus carrier, and other preferred virus carrier.Express the proteic paramyxovirus vector of the present invention multiple organizing all shown high infiltration power.Particularly, use the paramyxovirus vector (its coding has the fusion rotein of the present invention of the F albumen cleavage site of modification) of M genetically deficient, can produce the carrier of in particular organization, inducing strong cytogamy.
These recombinant viral vectors can prepare according to the procedure known to those skilled in the art.For example, being most commonly used to the adenovirus carrier of gene therapy can be by method and other method (Miyake etc., Proc.Natl.Acad.Sci.USA, 93,1320-24,1996 of Saito etc.; Kanegae etc., ActaPaediatr.Jpn., 38,182-188,1996; Kanegae etc., " Baiomanyuaru shiriizu4-Idenshi-donyu to Hatsugen Kaisekiho (Biomanual Series 4:Methods forgene transfection, expression; and analysis) ", Yodosha, 43-58,1994; Kanegae etc., Cell Engineering, 13 (8), 757-763,1994) make up.In addition, retroviral vector (Wakimoto etc. for example, Protein Nucleic acid and Enzyme (Japanese) 40,2508-2513,1995), adeno-associated virus vector (Tamaki etc., Protein Nucleic acid and Enzyme (Japanese) 40,2532-2538,1995) can prepare by traditional method.As preparation other can be with the concrete grammar of the virus vector of transgenosis in the Mammals, the known method for preparing vaccinia virus recombinant, the open Hei 6-502069 in its world in disclosed translator of Japanese version, among open Japanese patent application (JP-B) Hei 6-95937 that examined and the JP-B Hei 6-71429 description is arranged all.The currently known methods of preparation recombinant papillomavirus comprises among JP-B Hei 6-34727 and the international open Hei6-505626 of disclosed translator of Japanese version to be described.In addition, the currently known methods of preparation recombinant adeno-associated virus and recombinant adenovirus is described respectively in comprising the international open Hei 6-508039 of unexamined open Japanese patent application (JP-A) Hei 5-308975 and disclosed translator of Japanese version.
In rna gene group (it is included in the carrier that one aspect of the present invention provides), the coding proteic gene of matrix (M) (being the M gene) is suddenlyd change or is lacked.According to the present invention, the proteic cleavage site of F is modified to can be by sequence cleaved, and M draws, and drawing is suddenlyd change or lack to suppress particle forms ability.Therefore, the carrier (it is the releasing virus particle not, and only soaks into one group of cell of expressing specific proteases) with complete new property is put on display by successfully anti-.The sudden change elimination of M gene or the particle that has significantly reduced in the interior environment of host form activity.This sudden change of expressing in the proteic cell of this M can reduce in the gathering of cell surface and identifies (seeing embodiment) by detecting this albumen.
According to the present invention, known particulate secondary discharges the most effective modification of (promptly discharging VLP), and confirmation is the proteic disappearance of M.This fact is by the research report support to the effect of M albumen in virus particle forms in Sendai virus (SeV) and other negative (-) strand rna virus.For example, find in the stomatitis herpesvirus (VSV) that the proteic strongly expressed of M causes VLP sprout (Justice, P.A. etc., J.Virol.69,3156-3160,1995); Equally, parainfluenza virus VLP formation it is reported and (Coronel, E.C. etc., J.Virol.73,7035-7038,1999) also only occur when the M protein overexpression.Though forming, this VLP that is only caused by M albumen can not in all (-) strand rna virus, observe, recognize that M albumen is to form core (Garoff, H. etc., Microbiol.Mol.Biol.Rev.62 as the virus particle in (-) strand rna virus, 1171-1190,1998).
The concrete effect of M albumen in virus particle forms is summarized as follows: and virus particle formation in the so-called Lipid Rafts (lipid raft) on cytolemma (Simons, K.and Ikonen, E., Nature 387,569-572,1997).These are accredited as the lipid fragments that is insoluble to nonionic detergent (for example Triton X-100) (J.K., Cell 68,533-544,1992 for Brown, D.A.and Rose) at first.Shown the formation of virus particle in Lipid Rafts of following virus: influenza virus (Ali, A. etc., J.Virol.74,8709-8719,2000), Measles virus (MeV; Manie, S.N. etc., J.Virol.74,305-311,2000), SeV (Ali, A.andNayak, D.P., Virology 276,289-303,2000) etc.In these Lipid Rafts sites, M albumen enhanced virus particle forms, and concentrates envelope protein (also claiming spike protein) and ribonucleoprotein (RNP).In other words, M albumen can be to virus assembling and the device driving effect of sprouting (Cathomen, T. etc., EMBO J.17,3899-3908,1998; Mebatsion, T. etc., J.Virol.73,242-250,1999).In fact, show M albumen and influenza virus spike protein (Zhang, J. etc., J.Virol.74,4634-4644,2000), the kytoplasm caudal knot of SeV (Sanderson, C.M. etc., J.Virol.67,651-663,1993) closes.It is also in conjunction with the RNP (Virology 173 for Ruigrok, R.W. etc., 311-316,1989) of influenza virus, parainfluenza virus, SeV (Coronel, E.C. etc., J.Virol.75,1117-1123,2001) etc.In addition, for (VSV such as SeV (Proc.Natl.Acad.Sci.USA 79 for Heggeness, M.H. etc., 6232-6236,1982) and stomatitis herpesvirus; Gaudin, Y. etc., Virology 206,28-37,1995; Gaudin, Y. etc., J.Mol.Biol.274,816-825,1997), it is reported that M albumen and himself form oligomer.Therefore, because M albumen combines the ability that works with many virus compositions and lipid, this albumen is considered to assemble and the motivating force of sprouting and working as virus.
In addition, some report promptings also can suppress the release of VLP to the modification of envelope protein (spike protein).Below experimental embodiment be concrete report, wherein virus particle forms really and is suppressed: G albumen defective causes VLP to form having reduced by 1/30 (Cell 84 for Mebatsion, T. etc., 941-951,1996) in the rabies virus (RV).When M albumen defective, this level is reduced to 1/500,000 or lower (Mebatsion, T. etc., J.Virol.73,242-250,1999), in addition, for Measles virus (MeV), cell-cytogamy strengthens (Cathomen when M albumen defective, T. etc., EMBO J.17,3899-3908,1998).Inferring this is to be suppressed (Li, Z. etc., J.Virol.72,3789-3795,1998) because virus particle forms.In addition, when undergoing mutation in F or the H albumen kytoplasm tail (tail of kytoplasm side), similarly merge and strengthen appearance (Cathomen, T. etc., J.Virol.72,1224-1234,1998).Therefore, causing the sudden change of the proteic kytoplasm tail disappearance of F only and/or HN can suppress particle forms.Yet, because many VLP it is reported with the form (WO 00/70070) of F defective or form (Stricker, the R.andRoux of HN defective, L., J.Gen.Virol.72,1703-1707,1991) exist, especially in SeV, the effect of modifying these spike proteins is restricted.In addition, SeV is carried out following explanation: when SeV albumen F and HN are on Secretory Pathway (particularly, when they are arranged in golgi body etc.), kytoplasm tail (F and HN are proteic) and M protein binding (Sanderson, C.M. etc., J.Virol.67,651-663,1993; Sanderson, C.M. etc., J.Virol.68,69-76,1994).Therefore, think that this combination is very important to effectively M albumen being transferred in the cytolemma Lipid Rafts (virus particle forms therein).Think F and HN protein binding in described M albumen and the kytoplasm, and cause transferring to cytolemma by F and HN Secretory Pathway.As above-mentioned, M albumen plays an important role in virion forms.Use the M protein gene of modifying (it eliminates the gathering of M albumen at cell surface) to produce and do not have the carrier that virus particle forms ability.
The proteic Subcellular Localization of M can be measured by cell grade, perhaps uses immunostaining directly to detect the proteic location of M.In immunostaining, for example, can observe at the confocal laser microscopically by the painted M albumen of fluorescent-labeled antibody.Alternatively, after cell is cleaved, can be by using known cell grade legal system detailed information born of the same parents fraction, and can utilize the M protein antibodies subsequently by using for example immunoprecipitation or Western trace, be tested and appraised and contain the proteic level of M and assign to position.Virus particle forms in so-called cytolemma Lipid Rafts, promptly is insoluble to for example lipid fragments of Triton X-100 of nonionic detergent.Because M protein binding spike protein RNP, and M albumen itself, and, it is believed that its gathering of participation virus composition in Lipid Rafts further combined with the ability of lipid.Therefore, infer M albumen (utilizing the Lipid Rafts fragment to detect) and reflected accumulative M albumen by electrophoresis.That is, when can detected M proteic amount reduced, the M protein aggregation of cell surface also reduced.M albumen can use the inventor to be used for detecting the immunocytology staining direct viewing of Subcellular Localization in the gathering of cell surface.This method has been utilized and can be used for the painted anti-M antibody of immunocytology.When using this method to study, when the M protein aggregation, near cytolemma, observe very dense image.When M albumen was not assembled, both not had can detected concentrated pattern, did not also have the clear profile of cytolemma.Therefore, when detect seldom or do not detect concentrated pattern, the cytolemma profile is unclear, and when can be observed shallow dyeing by tenuigenin, cell surface M protein aggregation is considered to reduce.
Sudden change M albumen with significantly reduced cell surface aggregation activity is compared with wild-type M albumen, is considered to have significantly lower particle and forms ability.In the virus particle formation ability reduce and to have significance,statistical (for example, conspicuous level be 5% or when lower).By using for example Student t check or Mann-Whitney U check carrying out statistical test.The virus vector particle formation ability in the environment in the host that comprises sudden change M gene is lowered to preferred level below 1/5, more preferably below 1/10, more preferably below 1/30, more preferably below 1/50, more preferably below 1/100, more preferably below 1/300, and the more preferably level below 1/500.Most preferably, carrier of the present invention in the host in the environment basic deficiency disease poisonous carrier produce ability." the basic shortage, " refer to not detect in the environment generation of virion to term in the host.In this case, the virion concentration of existence is 10
3Below/the ml, preferred 10
2Below/the ml, more preferably 10
1Below/the ml.
The existence of virion can be passed through in directly confirmations of observation down such as electron microscopes.Alternatively, can use viral nucleic acid or albumen to detect as indicator or quantitatively they.For example, the genomic nucleic acids in the virion can by nucleic acid detection method commonly used for example polymerase chain reaction (PCR) detect and quantitatively.Alternatively, comprising the virion of heterologous gene can be by infecting it in cell and detecting this expression of gene and come quantitatively.The non-infectious virus particle can come quantitatively by utilizing transfection agents that described particle transfered cell is detected genetic expression later on.Virion of the present invention comprises does not have infective particle, for example VLP.
In addition, Bing Du effectiveness can (WO 00/70070 by for example measuring cell infection unit (CIU) or blood coagulation activity (HA); Kato, A. etc., Genes Cells 1,569-579,1996; Yonemitsu, Y.andKaneda, Y., " Hemaggulutinating virus of Japan-liposome-mediated gene deliveryto vascular cells. ", Ed.by Baker, A.H., Molecular Biology of Vascular Diseases.Methods in Molecular Medicine., Humana Press., 295-306,1999) measure.For with the marker gene carrier of GFP genetic marker for example, can use this mark as a token of thing (for example as GFP-CIU) come quantitative virus titer by the cell that direct census infects, as described in embodiment.The titre of Ce Dinging can be thought and equates (WO 00/70070) with CIU thus.For example, when the sample transfection of the involved virion of cell, the forfeiture that virion produces power can confirm by lacking detectable infectivity titre.There is not the virion (VLP) of infectivity to detect by using the fat transfection agents to carry out transfection.Particularly, for example can use the agent of DOSPER liposome transfection (Roche, Basel, Switzerland; Cat.No.1811169).100 milliliters of solution that have or do not have virion can mix with 12.5 μ lDOSPER, and keep 10 minutes in room temperature.Mixture jolting in per 15 minutes once, and transfection is to the cell of cultivating the full end on 6 orifice plates.VLP after the transfection second day can be by transfection after the existence or the disappearance of cell detect.
Term " host in environment " refers to the environment in the host, wild-type paramyxovirus (described carrier is from this virus) wherein, and unearned increment usually perhaps refers to allow the environment of the virus multiplication that is equal to.Environment can be in the host, for example, and the optimal growth condition of virus.When the host of paramyxovirus was Mammals, environment referred to the Mammals internal milieu in the host, and perhaps it is equal to environment.That is, temperature about 37 ℃-38 ℃ (for example, 37 ℃), the intravital temperature of corresponding Mammals.The example of condition comprises the normal cell culture condition in the body, more specifically is in wet environment, contain or do not contain in the substratum of serum (pH6.5 to 7.5), and 37 ℃, 5%CO
2
Because the significant differences in the proteic activity of modification M that envrionment conditions causes comprises the proteic conditional mutation of M, for example temperature sensitive sudden change.Term " conditional mutation " refers in the host to show in the environment genotype after the sudden change of " afunction ", and the active sudden change of Presentation Function in another kind of environment.For example, can preferably use the proteic gene of coding temperature sensitive mutation M, its major part or repertoire are lost but recovery at a lower temperature at 37 ℃.Term " temperature sensitive sudden change " refers to that its activity compares in the significantly reduced sudden change of low temperature (for example 32 ℃) at high temperature (for example 37 ℃).The inventor uses the proteic temperature-sensitive mutant of M successfully to prepare its particle and forms the virion that ability reduces greatly at 37 ℃ (environment in the corresponding host of this temperature).This M protein mutant is assembled at cell surface at cold condition (for example, 32 ℃); Yet, in host's normal body temperature (37 ℃), this proteins lose cohesion and can not form virion.The carrier of nucleic acid that comprises this temperature sensitive M protein mutant of encoding in genome is preferably as carrier of the present invention.The M albumen of the M encoding histone conditional mutation of this virus vector, described conditional mutation M albumen are in the condition of M protein function, and promptly admissible condition is brought into play its function down to form virion.When the virion that produces by this way was infected in home, therefore the effect of M albumen unable to get up did not have particle to form.
Temperature sensitive M transgenation has no particular limits, but it comprises that for example at least one is selected from following amino acid sites: the proteic G69 of Sendai virus M, T116, and A118, preferably have two sites that are selected from wherein, and more preferably have described all three sites.Other (-) strand rna virus M albumen that comprises homeotic mutation also can use aptly.Herein, G69 refers to that the 69th amino acid in the M albumen is glycine, and T116 refers to that the 116th amino acid in the M albumen is Threonine, and A183 refers to that the 183rd amino acid in the M albumen is L-Ala.
The coding proteic gene of M (being the M gene) is extensively conservative in (-) strand rna virus, and known and virus nucleocapsid and envelope protein interaction (Garoff, H. etc., Microbiol.Mol.Biol.Rev.62,117-190,1998).The proteic aminoacid sequence 104-119 of SeV M (104-KACTDLRITVRRTVRA-119/SEQ ID NO:45) infers the formation alpha-helix, and be accredited as important area (Mottet, G. etc., the J.Gen.Virol.80 that virion forms, 2977-2986,1999).This zone is extensively conservative in (-) strand rna virus.M Argine Monohydrochloride sequence is similar in (-) strand rna virus.Particularly, known M albumen normally has the albumen of 330-380 amino-acid residue in the virus of term paramyxovirus subfamily.Their structure is similar in whole zone, but half of C-terminal has extra high homology (Gould, A.R., R., Virus Res.43,17-31,1996; Harcourt, B.H. etc., Virology 271,334-349,2000).Therefore, for example with the proteic G69 of SeV M, T116 and A183 homologous amino acid can be identified easily.
The proteic G69 of corresponding SeV M, amino-acid residue on the proteic homologous site of other of T116 and A183 (-) strand rna virus M can be utilized by those skilled in the art and comprises for example BLAST or compare and form for example CLUSTAL W of program of amino acid sequence homology search utility that comparison forms function, identifies by comparing with SeV M albumen.The M albumen homology site of G69 in the corresponding SeV M albumen comprises the G68 in people's secondary flow virus-1 (HPIV-1); Human parainfluenza virus-3 (HPIV-3); In the sea dog distemper virus (PDV) and the G70 of canine distemper virus (CDV); G71 in the dolphin Measles virus (DMV); PPR virus (PDPR), the G70 in Measles virus (MV) and the rinderpest virus (RPV); G81 in Heng Dela virus (Hendra) and the upright all kinds of diseases and ailments poison (Nipah); G70 among the human parainfluenza virus-2 (HPIV-2); E47 among human parainfluenza virus-4a (HPIV-4a) and the human parainfluenza virus-4b (HPIV-4b); And the E72 in the mumps virus (Mumps).(description in the bracket is represented to be called for short; Letter and number is represented amino acid and position).The M albumen homology site of T116 in the corresponding SeV M albumen comprises the T116 among the human parainfluenza virus-1 (HPIV-1); T120 among the human parainfluenza virus-3 (HPIV-3); T104 in sea dog distemper virus (PDV) and the canine distemper virus (CDV); T105 in the dolphin Measles virus (DMV); PPR virus (PDPR), Measles virus (MV), the T104 in the rinderpest virus (RPV); T120 in Heng Dela virus (Hendra) and the upright all kinds of diseases and ailments poison (Nipah); T117 in human parainfluenza virus-2 (HPIV-2) and the monkey parainfluenza virus 5 (SV5); T121 among human parainfluenza virus-4a (HPIV-4a) and the human parainfluenza virus-4b (HPIV-4b); T119 in the mumps virus (Mumps); And the S120 in the Avian pneumo-encephalitis virus (NDV).The M albumen homology site of A183 in the corresponding SeV M albumen is the A183 among the human parainfluenza virus-1 (HPIV-1); F187 among the human parainfluenza virus-3 (HPIV-3); Y171 in sea dog distemper virus (PDV) and the canine distemper virus (CDV); Y172 in the dolphin Measles virus (DMV); PPR virus (PDPR), the Y171 in Measles virus (MV) and the rinderpest virus (RPV); Y187 in Heng Dela virus (Hendra) and the upright all kinds of diseases and ailments poison (Nipah); Y184 among the human parainfluenza virus-2 (HPIV-2); F184 in the monkey parainfluenza virus 5 (SV5); F188 among human parainfluenza virus-4a (HPIV-4a) and the human parainfluenza virus-4b (HPIV-4b); F186 in the mumps virus (Mumps); And the Y187 in the Avian pneumo-encephalitis virus (NDV).In above-mentioned virus, be suitable for virus of the present invention and comprise genomic those viruses that contain coding M protein mutant, amino-acid residue wherein is substituted in one of above-mentioned three sites, preferably in these three sites any two be substituted, and more preferably be substituted in all three sites.
Amino acid mutation comprises any other desirable amino acid whose sudden change.Yet preferably the amino acid that has different chemical character with its side chain replaces.Amino acid can be grouped into basic aminoacids (for example, Methionin, arginine, Histidine); Acidic amino acid (for example, aspartic acid, L-glutamic acid); Uncharged polare Aminosaeren (for example, glycine, l-asparagine, glutamine, Serine, Threonine, tyrosine, halfcystine); Nonpolar amino acid (for example, L-Ala, Xie Ansuan, leucine, Isoleucine, proline(Pro), phenylalanine, methionine(Met), tryptophane); Branched amino acid (for example, Threonine, Xie Ansuan, Isoleucine); And aromatic amino acid (for example, tyrosine, phenylalanine, tryptophane, Histidine).A kind of amino-acid residue that belongs to the specific amino acids group can be with the another kind of aminoacid replacement that belongs to not on the same group.Object lesson includes but not limited to: replace acidity or neutral amino acids with basic aminoacids; Replace nonpolar amino acid with polare Aminosaeren; With molecular weight greater than the aminoacid replacement molecular weight of naturally occurring amino acid whose molecular-weight average in 20 amino acid less than above-mentioned mean value; And conversely, with molecular weight less than the aminoacid replacement molecular weight of this mean value amino acid greater than this mean value.For example, can use to comprise to be selected from G69E the Sendai virus M albumen of the sudden change of T116A and A183S or comprise expection other paramyxovirus M albumen aptly with source position sudden change.Herein, G69E refers to wherein the 68th sudden change that M Argine Monohydrochloride glycine is replaced by L-glutamic acid, T116A refers to wherein the 116th sudden change that M Argine Monohydrochloride Threonine is replaced by L-Ala, and A183S refers to wherein the 183rd sudden change that M Argine Monohydrochloride L-Ala is replaced by Serine.In other words, the G69 in the Sendai virus M albumen, the homology M protein loci in T116 and A183 and other virus can be respectively by L-glutamic acid (E), and L-Ala (A) and Serine replace.Utilization is preferably united in these sudden changes, and especially preferably comprises all above-mentioned three kinds of sudden changes.The mutagenesis of M gene can be carried out according to known mutafacient system.For example, as described in embodiment, can use the oligonucleotide that contains desirable sudden change to import sudden change.
For example for Measles virus, can be with the M gene order (epitope sequences of wherein anti-M protein monoclonal antibody changes) (Morikawa, Y. etc., Kitasato Arch.Exp.Med.64,15-30,1991) of temperature sensitive strain P253-505.In addition, proteic 104 the residue Threonines of Measles virus M, perhaps proteic 119 the residue Threonines of mumps virus M (proteic 116 the residue Threonines of the corresponding SeV M of above-mentioned residue) can replace with any amino acid (for example L-Ala).
According to preferred embodiment, carrier of the present invention comprises the M genetic flaw.Term " M genetic flaw " refers to lack the M protein function, comprises that carrier has the situation of the M gene that comprises functional defect sudden change, and M gene situation about lacking from carrier.The M transgenation of functional defect can be by for example lacking M gene protein encoding sequence, perhaps inserts another sequence and produce.For example, can be by terminator codon being inserted (WO 00/09700) in the middle of the M albumen coded sequence.More preferably, carrier of the present invention lacks the M albumen coded sequence fully.Different with the proteic carrier of encoding condition sudden change M, there is not M albumen open reading frame (ORF) carrier under any condition, all can not produce virion.
In order to prepare carrier of the present invention, be N at the required viral protein of RNP (it comprises the paramyxovirus geneome RNA) reconstruct, P and L albumen exist down, and the cDNA of coding paramyxovirus geneome RNA is transcribed.Virus RNP can be reconstructed by forming minus strand genome (promptly identical with viral genome antisense strand) or normal chain (sense strand of coding viral protein).For improving reconstruct efficient, be preferably formed normal chain.3 ' leader sequence of RNA end and 5 ' tailer sequence preferably as far as possible accurately reflect the natural viral genome.For accurately controlling 5 ' end of transcription product, can be with the T7 rna polymerase recognition sequence as transcription initiation site expressed rna polysaccharase in cell.Transcription product ground 3 ' end can be controlled by the following method: for example independently cutting type ribozyme is encoded to described 3 ' end and guarantees that it is accurately cut off (Hasan, M.K. etc., J.Gen.Virol.78,2813-2820,1997; Kato, A. etc., EMBO J.16,578-587,1997; Yu, D. etc., Genes Cells 2,457-466,1997).
The cloning site that heterologous gene is inserted cDNA can be designed such that the insertion that promotes heterologous gene.Any optimum position of genomic albumen non-coding region can be inserted in described site.Particularly, described site can be inserted into 3 ' leader and near between 3 ' the terminal viral protein ORF, insert between the viral protein ORF, and/or inserts terminal and 5 ' trail between the viral protein ORF in district near 5 '.In M gene defection type genome, described cloning site can be designed to be positioned at the deletion segment of M gene.Described cloning site can be, for example the recognition sequence of Restriction Enzyme.Described cloning site can be the so-called multiple clone site that comprises a large amount of Restriction Enzyme recognition sequences.This cloning site can exist respectively with genomic a plurality of sites on, thereby a large amount of heterologous genes can be inserted genomic different positions.
The recombinant virus RNP that lacks particle formation ability can be according to for example " Hasan, M.K. etc., J.Gen.Virol.78,2813-2820,1997 ", description among " Kato, A. etc., EMBO J.16,578-587,1997 " and " Yu; D. etc., Genes Cells 2,457-466,1997 " makes up.This method is described below:
For importing heterologous gene, at first preparation comprises the DNA sample of the cDNA nucleotide sequence of desirable heterologous gene.It is 25ng/ μ l or above simple substance grain that described DNA sample preferably is accredited as concentration by electrophoresis.Following examples have been described the use of NotI site in the DNA that heterologous gene is inserted the coding virus genome RNA: if target cDNA sequence comprises the NotI recognition site, this site will be used for example technology removal of site-directed mutagenesis in advance, with the change nucleotide sequence, but do not change its amino acid sequence coded.The desirable gene fragment that increases, and use PCR from this DNA sample, to reclaim.Be attached to 5 ' of two kinds of primers by the NotI site and distinguish, the two ends of amplified fragments all become the NotI site.E-I-S sequence or its part are included in the primer, make the E-I-S sequence between the ORF of virogene both sides and between the ORF of heterologous gene (incorporate it into viral genome after).
For example, cut for guaranteeing NotI, forward side (forward side) synthetic DNA sequence is as follows: (preferred four Nucleotide do not comprise that for example GCG and GCC are like this from the sequence of NotI recognition site to select two or more Nucleotide arbitrarily in its 5 ' side; More preferably ACTT), and with NotI recognition site " gcggccgc " add its 3 ' side.In addition, intervening sequence (9 any Nucleotide, the perhaps multiple of a 9=+6 Nucleotide), and ORF (about 25 Nucleotide also comprise the sequence of the initiator codon ATG of desirable cDNA) also is added to 3 ' side.Preferably select about 25 Nucleotide, make G or C become 3 ' the terminal last Nucleotide of the synthetic few DNA of forward side from desirable cDNA.
Reverse side synthetic DNA sequence is as follows: (preferred four Nucleotide do not comprise that for example GCG and GCC are like this from the sequence of NotI recognition site to select two or more any Nucleotide from 5 ' side; More preferably ACTT), adding its 3 ' side and with NotI recognition site " gcggccgc " and further few DNA being inserted fragment is added in 3 ' terminal to regulate length.The Design of length of this widow DNA becomes to make that the Nucleotide number of NotI fragment product (comprising the E-I-S sequence) of final pcr amplification is 6 multiple (so-called " 6 times of rules "; Kolakofski, D. etc., J.Virol.72,891-899,1998; Calain, P.andRoux, L., J.Virol.67,4822-4830,1993; Calain, P.and Roux, L., J.Virol.67,4822-4830,1993).With the mutual sequence not of Sendai virus S sequence, preferred 5 '-CTTTCACCCT-3 ' (SEQ ID NO:8), with I sequence complementary sequence, preferred 5 '-AAG-3 ', and with E sequence complementary sequence, preferred 5 '-TTTTTCTTACTACGG-3 ' (SEQ ID NO:9), further 3 ' side of the few dna fragmentation of adding insertion.When use has added these primers of E-I-S sequence, 3 ' the terminal adding complementary sequence that passes through of reverse side synthetic DNA forms, described complementary sequence is equivalent to about 25 Nucleotide (from the terminator codon in reverse counting of desirable cDNA), and selects its length to make G or C become last Nucleotide.
Can use Taq polysaccharase etc. to carry out PCR according to common method.So the desirable fragment of amplification digests with NotI, and inserts the NotI site among the plasmid vector pBluescript subsequently.The nucleotide sequence of thus obtained PCR product can use sequenator to confirm, to select to comprise the plasmid of correct sequence.The fragment of inserting is downcut from plasmid with NotI, and is cloned in the NotI site of the plasmid that carries genome cDNA.Alternatively, recombinant sendai virus cDNA can obtain by described fragment directly being inserted the NotI site, and need not the mediation of plasmid vector.
For example, the recombinant sendai virus genome cDNA can make up (Yu, D. etc., Genes Cells 2,457-466,1997 according to the description in the reference; Hasan, M.K. etc., J.Gen.Virol.78,2813-2820,1997).For example will comprise the NotI restriction site (5 '-(G)-CGGCCGCAGATCTTCACG-3 ') intervening sequence of (SEQ ID NO:10) 18-bp inserts between clone's the leader sequence and the proteic ORF of N of Sendai virus genome cDNA (pSeV (+)), and obtained to contain the plasmid pSeV18 from the autonomous cutting ribozyme site of the anti-genome chain of hepatitis D virus thus
+B (+) (Hasan, M.K. etc., J.General Virology 78,2813-2820,1997).
In addition, for example under the situation of M genetically deficient, perhaps import under the situation of temperature-sensitive mutation, the cDNA of encoding gene group RNA digests with Restriction Enzyme, and the fragment that comprises the M gene is collected and is cloned in the suitable plasmid.The structure in mutagenesis of M gene or M genetic flaw site uses this plasmid to carry out.The importing of sudden change can be by for example using QuikChange
TM(Stratagene, La Jolla CA) carry out according to the method in the test kit explanation site-directed mutagenesis test kit.For example, M genetic flaw or disappearance can be undertaken by the PCR method of attachment of using associating, thereby can realize all or part of disappearance of M gene ORF, and with being connected of appropriate intervals sequence.Obtain the M transgenation or the defective type sequence after, reclaim the fragment that comprises described sequence, and the M gene regions in the original full-length cDNA is replaced by this sequence.Therefore, can produce the viral genome cDNA that comprises the M gene.Use similar method, sudden change can be imported for example F and/or HN gene.
Carrier of the present invention can be reconstructed by the DNA that transcribes encoding gene group RNA in the presence of viral protein in cell.The invention provides the DNA of the virus genome RNA of code book invention carrier, it can be used for preparing carrier of the present invention.In addition, the invention still further relates to the purposes of DNA in preparation carrier of the present invention of this vector gene group of coding RNA.Carrying out viral reconstruct from (-) chain viral genome cDNA can use known method to carry out that (WO 97/16539; WO 97/16538; Durbin, A.P. etc., Virology 235,323-332,1997; Whelan, S.P. etc., Proc.Natl.Acad.Sci.USA 92,8388-8392,1995; Schnell.M.J. etc., EMBO J.13,4195-4203,1994; Radecke, F. etc., EMBO J.14,5773-5784,1995; Lawson, N.D. etc., Proc.Natl.Acad.Sci.USA92,4477-4481,1995; Garcin, D. etc., EMBO J.14,6087-6094,1995; Kato, A. etc., Genes Cells 1,569-579,1996; Baron, M.D.and Barrett, T., J.Virol.71,1265-1271,1997; Bridgen, A.and Elliott, R.M., Proc.Natl.Acad.Sci.USA 93,15400-15404,1996).Use these methods, (-) strand rna virus or can be from its DNA reconstruct as the RNP of virus composition, described virus comprises for example parainfluenza virus, stomatitis herpesvirus, rabies virus, Measles virus, rinderpest virus, Sendai virus etc.Carrier of the present invention can be according to these method reconstruct.
Particularly, carrier of the present invention can produce by following steps: (a) expressing N, the proteic transit cell record of P and L cDNA, described cDNA coding paramyxovirus geneome RNA (strand RNA) or its complementary strand (normal chain); (b) from described cell or its culture supernatant, collect the mixture that comprises geneome RNA.The geneome RNA of transcribing duplicates to form the RNP mixture under L and P albumen exist at N.When step (a) was carried out in the presence of the F albumen that the cutting of described genome encoding is modified, the RNP of generation was transferred to the cell with described cells contacting, infect diffusion, and carrier is amplified.According to this method, even there is not function M albumen, carrier of the present invention also can produce with the form of RNP.
The initial required enzyme of geneome RNA of transcribing from DNA, for example the T7 RNA polymerase can provide by the plasmid or the virus vector of the described enzyme of transfection expression.Alternatively, described enzyme can provide by its gene is incorporated in the cell chromosome, with abduction delivering in viral reconstruct.In addition, provide geneome RNA and the required viral protein of carrier reconstruct, for example expressed these proteic plasmids by importing.For these viral proteins are provided, available helper virus is wild-type paramyxovirus or specific sudden change paramyxovirus for example.Yet because this pollution that can cause these viruses to cause, helper virus is not preferably used.
The method that the DNA of expressing gene group RNA is transferred in the cell comprises, for example, and following method: 1) the preparation sedimentary method of DNA that can absorb by target cell; 2) method of the cytotoxic activity that has of preparation and the mixture that contains positive charge DNA that can be absorbed by target cell; With 3) use the hole in the electricimpulse open target cell membrane of moment, make the method that dna molecular can pass through.
At aforesaid method 2) in, available multiple transfection reagent, example comprise DOTMA (Roche), Superfect (QIAGEN #301305), DOTAP, DOPE, DOSPER (Roche#1811169) etc.The method of using calcium phosphate to carry out transfection during method 1) example, the DNA that wherein enters cell incorporates phagosome into, but also with enough amounts incorporate in the nucleus (Graham, F.L.and Van Der Eb, J., Virology 52,456,1973; Wigler, M.and Silverstein, S., Cell 11,223, and 1977).How Chen and Okayama optimize this transfer techniques after deliberation, and report can obtain best precipitation in following condition: 1) containing 2%-4%CO
2Air in, at 35 ℃ with cell and coprecipitate together incubation 15-24 hour; 2) use has more highly active cyclic DNA than linear DNA; With 3) concentration of DNA is 20-30 μ g/ml (Chen, C.and Okayama, H., Mol.Cell.Biol.7,2745,1987) in the precipitation mixture.Method 2) is fit to transient transfection.Prepare DEAE-dextran (Sigma #D-9885, M.W.5 * 10 with ideal DNA concentration ratio in the currently known methods in the past
5) mixture, and carry out transfection.Because many mixtures all decompose, add chloroquine to strengthen result (Proc.Natl.Acad.Sci.USA 80,3015 for Calos, M.P., 1983) in endosome.Method 3) refer to electroporation, and ratio method 1) and 2) more changeable, this is because it does not relate to cellular sensitivity.Method 3) it is said in the pulsed current extended period, pulse shape, electric field (gaps between electrodes, volt) intensity, damping fluid electroconductibility, the ideal conditions of DNA concentration and cell density is down effectively.
In above-mentioned three classes, method 2) operation easily, and the check of a lot of test samples of a large amount of cells is used in simplification.So suitable situation that the DNA transfered cell is carried out carrier reconstruct of transfection agents.Preferably, use the Superfect transfection agents (QIAGEN, Cat.No.301305) or the agent of DOSPER liposome transfection (Roche, Cat.No.1811169), but described transfection agents is not limited thereto.
Particularly, can for example followingly carry out from cDNA reconstruct virus vector:
In 24 holes in the culture plate of 6 hole plastic culture plates or diameter 100mm the full end of LLC-MK2 cell cultures to 100% that monkey is kidney derived, use the minimum essential medium (MEM) that contains 10% foetal calf serum (FCS) and antibiotin (100 units/ml penicillin G and 100 μ g/ml Streptomycin sulphates).These cells for example infect with the vaccinia virus recombinant vTF7-3 that expresses the T7 polysaccharase with the 2PFU/ cell subsequently.In the presence of 1 μ g/ml psoralene (psoralen), (Proc.Natl.Acad.Sci.USA 83 for Fuerst, T.R. etc., 8122-8126,1986 in deactivation with UV radiation treatment 20 minutes for this virus; Kato, A. etc., Genes Cells 1,569-579,1996).The time of the amount of the psoralene that adds and UV irradiation can suitably be regulated.Infect after one hour, can be by lipofection etc. with 2 μ g-60 μ g, more preferably 3 μ g-20 μ g, the DNA transfectional cell of above-mentioned coding recombinant sendai virus geneome RNA.This method is used Superfect (QIAGEN), and use and express several plasmids (pGEM-N of 0.5 μ g-24 μ g that produces the required trans-activation viral protein of viral RNP, 0.25 (the Kato pGEM-L of the pGEM-P of μ g-12 μ g and 0.5 μ g-24 μ g), A. etc., Genes Cells 1,569-579,1996).Coding N, the ratio of the expression vector of P and L is preferably 2: 1: 2.The amount of plasmid is adjusted to by suitable, the pGEM-N of 1 μ g-4 μ g for example, the pGEM-L of the pGEM-P of 0.5 μ g-2 μ g and 1 μ g-4 μ g.
Cell after the transfection is cultivated in serum-free MEM (contain Rifampin (Sigma) and the cytosine arabinoside (AraC) of 100 μ g/ml as needs, the cytosine arabinoside (AraC) that more preferably only contains 40 μ g/ml (Sigma)).Reagent concentration can be optimized to the cytotoxic activity that makes vaccinia virus cause and minimize, and viral rate of recovery maximization (Kato, A. etc., Genes Cells 1,569-579,1996).After the transfection, culturing cell about 48 hours to about 72 hours, the freezing and thaw cycle of triplicate is destroyed described cell then.LLC-MK2 cultivates then with the transfection again of destructive cell.RNP can be used as the mixture transfered cell with the formation of for example fat transfection amine reagent and polycation lipesome.Particularly, can utilize multiple lipofectin reagent.The example of these reagent has DOTMA (Roche), Superfect (QIAGEN#301305), DOTAP, DOPE, DOSPER (Roche#1811169) etc.Can add chloroquine and decompose (Proc.Natl.Acad.Sci.USA 80,3015 for Calos, M.P., 1983) in the endosome again to prevent RNP.In the RNP cells transfected, from RNP expression virogene and after duplicating the step of RNP, this carrier then increases.By cell lysate and repeat amplification protcol that dilution obtains, vaccinia virus vTF7-3 can be removed fully.Can repeat to increase again, for example repeat 3 times or more than.The RNP that obtains is kept at-80 ℃.
The host cell that is used for reconstruct is unrestricted, as long as virus vector can be by reconstruct.For example, when the reconstruct sendai virus vector, can use kidney derived LLC-MK2 cell of monkey and CV-1 cell, cultured cells is the kidney derived bhk cell of hamster for example, the cell in people source etc.By in these cells, expressing suitable envelope protein, can obtain to comprise in the coating this proteic infectious virus particle.
When M genetic flaw in the viral genome or disappearance, the cell of this virus infection does not form virion.Therefore, although can be prepared into RNP or comprise the cell of RNP by aforesaid method carrier of the present invention, the RNP that breeds in cell only is transferred in the exposing cell.Therefore, transfection is slowly spread, and causes being difficult to producing a large amount of virus vector with height.The invention provides the method that preparing carriers of the present invention is become virion.Virion in the solution is more stable than RNP.In addition, have infectivity by making virion, carrier can need not transfection agents by simple contact and import in the target cell.Therefore, virion is particularly useful in industrial application.As the method that preparing carriers of the present invention is become virion, use the viral genome described virus of reconstruct under admissible condition that comprises M gene with conditional mutation.Particularly, by under admissible condition, cultivating, make M albumen performance function formation particle by above-mentioned steps (a) or step (a) and the mixture cells transfected that (b) obtains.Generation comprises the method for virion that coding has the proteic geneome RNA of sudden change M of conditional mutation and may further comprise the steps: (i) in cell under the proteic admissible condition of sudden change M, amplification comprises paramyxovirus N, the RNP of P and L albumen and geneome RNA; (ii) collect the virion that is discharged into cell culture supernatant.For example temperature sensitive mutation M albumen can be cultivated under its permissible temperature.
The another kind of proteic helper of method use expression M that preparing carriers of the present invention is become virion.By using the M helper, the inventor becomes virion with a kind of preparing carriers, and the proteic cleavage site of F is modified to by sequence cleaved in the described carrier, and M transgenation or disappearance.Because method of the present invention does not need helper virus, for example the wild-type paramyxovirus does not produce the virus that contains the M gene with particle formation ability.Therefore, carrier of the present invention can be prepared into pure form.The invention provides a kind of virion, it comprises (i) paramyxovirus geneome RNA, wherein the proteic nucleic acid of (a) coding M is suddenlyd change or is lacked, and the F albumen of (b) having encoded and having modified, the sequence that its cleavage site sequence is not cut the cutting of the proteic proteolytic enzyme of wild-type F replaces, and described virion also (1) have the ability of replicator group RNA in the cell that infects by described virion; (2) obviously reduction or elimination of the generation of virion demonstration in the environment in the host; (3) in the presence of described proteolytic enzyme, have geneome RNA imported with usefulness and contain ability in the cell that the virion cells transfected of this geneome RNA contacts.According to embodiment preferred, this virion will not produce virion.
The method that in the proteic cell of expressive function M, prepares virion of the present invention, may further comprise the steps: RNP (it comprises paramyxovirus N, P and L albumen and geneome RNA) (i) increases in wild-type M albumen of expressing paramyxovirus or the proteic cell that is equal to; (ii) collect and be discharged into the virus in cells and supernatant particle.As long as wild-type M albumen has the ability that forms virion, it can be from the paramyxovirus in the source of non-genomic group RNA.In addition, the mark peptide can be added in the described albumen, or alternatively, when it is expressed by suitable expression, can be added on the described albumen from the joint peptide of carrier.As above-mentioned, used albumen is wild-type M albumen itself not necessarily, but can be the albumen with virion formation ability that is equal to wild-type protein.Comprise the M albumen of expressing in these cells in the coating of the virion that from express the proteic cell of M, produces; Yet it does not comprise this proteic gene of coding.Therefore, wild-type M albumen does not continue to express in the cell of this virus infection.Therefore, virion can not form.
Preparation is expressed the proteic helper of M and can be carried out as following.For preparing, for example can use inducible promoter or utilize the expression regulation system (for example Cre/loxP) of recombinating with the proteic carrier of derivable formal representation M.But Cre/loxP abduction delivering plasmid for example can use, and plasmid pCALNdlw makes up, and described plasmid can be designed to utilize Cre DNA recombinase expressing gene product (J.Virology 72 for Arai, T. etc., 1115-1121,1998) inductively.As can expressing the proteic cell of M, can the proteic auxiliary cell line of continuous expression M preferably by inducing the M gene that imports in its karyomit(e) to set up.For example, kidney derived clone LLC-MK2 of monkey etc. can be used as such cell.The LLC-MK2 cell among the MEM of 50 units/ml Benzylpenicillin sodium and 50 μ g/ml Streptomycin sulphates, at 37 ℃, contains 5% CO containing 10% heat treated fixedly foetal calf serum (FBS)
2Atmosphere in cultivate.According to known solutions, the above-mentioned plasmid that is designed to utilize Cre DNA recombinase can express the M gene product inductively imports the LLC-MK2 cell with calcium phosphate method (Mammals transfection reagent box (Stratagene)).
For example, 10 μ g M-expression plasmids can import in the LLC-MK2 cell that grew up to for the 40% full end in the plate of 10cm.These cells are subsequently in 37 ℃ incubator, in the MEM of the 10ml that contains 10%FBS and 5% CO
2Under hatch.After hatching 24 hours, collecting cell also is suspended from the 10ml substratum.Described suspension is added in the ware of 5 diameter 10cm subsequently: the 5ml suspension is added in the ware, adds in two wares with the 2ml/ ware, and the 0.2ml/ ware adds in two wares.Cell in each ware was cultivated 14 days in the 10ml MEM that contains 10%FBS and 1200 μ g/ml G418 (GIBCO-BRL); Changed a subculture in per two days.Therefore, select gene wherein to be stabilized the clone of importing.Use clone's ring to collect the G418-resistant cell of growing on the substratum.The every kind of clone's who collects cell is further cultivated the plate that is paved with 10cm.
M albumen high expression level is important for reclaiming a high viral disease poison in the helper.For this reason, for example above-mentioned selection to the M-express cell is preferably carried out twice or is more.For example, transfection comprises the M-expression plasmid of drug resistance marker gene, and uses medicament selection to comprise the cell of M gene.Subsequently, transfected in identical cell to the M-expression plasmid that comprises marker gene of certain drug opposing, and use this second drug resistance gene to select cell.The cell that uses the cell of second mark to select to select after the transfection first time is compared, probably with taller and bigger horizontal expression M albumen.Therefore, the M helper that makes up by twice repetition transfection can use aptly.Because the M helper can express the F gene simultaneously, make F and M gene all the preparation of the infectious viral particle of defective become possible (WO03/025570).Therefore, also advise the plasmid transfection of expressing the F gene more than twice, with rising F protein expression inductive level.The proteic gene of the F of modification described herein can be used as the F gene.
The protein induced expression of M can be by obtaining incubated cell to the ware that is paved with 6cm, and subsequently, for example use adenovirus AxCANCre to infect these cells with MOI=~3, this is according to (Saito etc. such as Saito, Nucleic Acids Res.23,3816-3821,1995; Arai, T. etc., J.Virol.72,1115-1121,1998) method carry out.
For using expression wild-type M albumen or its to be equal to the cell preparation virion of the present invention of albumen (M helper).The above-mentioned RNP of the present invention can import these cells and cultivate subsequently.RNP can import in the M helper by the following method: the cell lysate transfection that for example will contain RNP is in the M helper, or the cytogamy of the co-culturing, inducing of cell by producing RNP and M helper.Also can be by geneome RNA be transcribed in the M helper, and at N, P and L albumen exist down, synthetic again RNP realizes.
Above-mentioned steps of the present invention (i) (using the step of M helper amplification RNP) is preferably carried out at low temperature.In the proteic carrier of preparation use temperature sensitizing mutation M, the method for preparing virion must the temperature below permissible temperature be carried out.Yet surprisingly, the inventor finds that in the method for the invention when carrying out viral forming process at low temperatures, effectively the particle generation is possible, even when using wild-type M proteic.Among the present invention, term " low temperature " refers to 35 ℃ or following, preferred 34 ℃ or following, and more preferably 33 ℃ or following, and most preferably 32 ℃ or following.
According to the present invention, virion can be discharged in the viral celliferous extracellular fluid, and for example a virus poison is 1 * 10
5More than the CIU/ml, preferred 1 * 10
6CIU/ml or more than, more preferably 5 * 10
6CIU/ml or more than, more preferably 1 * 10
7CIU/ml or more than, more preferably 5 * 10
7CIU/ml or more than, more preferably 1 * 10
8CIU/ml or more than, and more preferably 5 * 10
8CIU/ml or more than.Described virus is dripped poison can be by (Virology 177 (1), 65-74,1990 for Kiyotani, K. etc. in specification sheets or other document; WO 00/70070) method measure.
As follows from a preferred embodiment of the method for M defective virus genome cDNA reconstruct recombinant viral vector.That is, described method comprises following steps: (a) at the DNA that expresses transit cell record coding (minus strand or the normal chain) geneome RNA that forms the required viral protein (being NP, NP, P, L, M, F and HN albumen) of infectious viral particle; (b) these cells and the M gene (being the M helper) that expression is incorporated in the karyomit(e) are carried out common cultivation; (c) prepare cell extract from this culture; (d) be incorporated into M gene (being the M helper) in the karyomit(e) with described extract transfection expression, and cultivate these cells; (e) from the culture supernatant, reclaim virion.Step (d) is preferably carried out under above-mentioned cold condition.The virion that obtains to increase by the coinfection of helper (preferably at low temperatures).Particularly, described virus can be according to the description reconstruct among the embodiment.The virion that reclaims can be diluted, and subsequently once more transfection to M helper to be amplified.Described amplification step can repeat twice or three times or more times carries out.The virus strain that obtains can be kept at-80 ℃.Can measure virus titer by measuring hemagglutinin activity (HA).HA can measure by " terminal point dilution method ".
Particularly, at first, the LLC-MK2 cell can 5 * 10
6The density of cell/ware is layered on the plate of 100mm.When using the transcribing of T7 RNA polymerase induced gene group RNA, cell can be cultivated 24 hours, and use the vaccinia virus recombinant (PLWUV-VacT7) of expressing the T7 polysaccharase with MOI=about 2 in room temperature subsequently, infected 1 hour in room temperature, described vaccinia virus has used psoralene and UVA (365nm) to handle 20 minutes, and (Proc.Natl.Acad.Sci.USA 83 for Fuerst, T.R. etc., 8122-8126,1986).After washing described cell with serum-free MEM, use the plasmid of expressing gene group RNA respectively and express paramyxovirus N, P, L, the proteic plasmid of F and HN utilizes suitable lipofectin reagent transfectional cell.The ratio of plasmid can be for example 6: 2: 1: 2: 2: 2, but be not limited thereto.Cultivate after 5 hours, wash described cell twice with serum-free MEM, and containing 40 μ g/ml cytosine(Cyt)-β-D-arbinofuranose glycosides ((AraC of cytosine-β-D-arabinofuranoside) subsequently, Sigma, St.Louis, MO) and 7.5 μ g/ml trypsin GIBCO-BRL, Rockville cultivates among MEM MD).Cultivate after 24 hours, described cell uses the proteic cell of continuous expression M (M helper) with about 8.5 * 10
6The density of cell/ware covers, and then at 37 ℃, contains 0 μ g/ml AraC and 7.5 μ g/ml trypsin P0) MEM in cultivated again two days.Collect cultured cells, and it is suspended among the ptiMEM of 2ml/ ware.After repeating freeze thawing three times, directly with the lysate transfection to the M helper, and at 32 ℃, contain among the serum-free MEM of 40 μ g/mL AraC and the cutting proteic proteolytic enzyme of F (P1) and cultivate.After 3-14 days, collect part culture supernatant, and infect the M helper that has just produced,, contain among the serum-free MEM of 40 μ g/mL AraC and proteolytic enzyme (P2) and cultivate then at 32 ℃ with it.After 3-14 days, infect the M helper of preparation just again, and, use serum-free MEM (P3) to cultivate 3-7 days having (virus that is used to prepare the F-cutting) or not existing under the condition of (being used to prepare the virion that F-does not cut) proteolytic enzyme.By repeat to increase again 3 times or more than, the initial vaccinia virus of using can be eliminated fully.BSA is added in the culture supernatant of collecting with 1% final concentration, and be kept at-80 ℃.
Virion of the present invention can be the infectious particles that the F albumen of its modification is cut, it perhaps can be the potential infectious viral particle, be that its original form does not have infectivity, but just have infectivity after the proteic protease treatment of F through the described modification of cutting.Modification F albumen by described genome encoding is present on the coating of virion, yet it lacks infectivity when not cutting.This virus obtains infectivity by the protease treatment of modifying the proteic cutting fragment of F with cutting, perhaps by in the presence of the proteic proteolytic enzyme of this F of cutting, contacts with cell or tissue and obtains infectivity.Be the virion that the F albumen that uses the generation of virus production cell by above-mentioned virus to obtain its modification is not cut, the final step of virus amplification step can carry out lacking under the proteic proteolytic enzyme of F that cutting modifies.On the other hand, this virus of preparation is feasible in the presence of described proteolytic enzyme can produce the proteic infectious viral particle of the F with cutting.
In addition, by in cell, expressing the envelope protein that does not have coding in the virion production process in the viral genome, can produce its coating and comprise this proteic virion.An example of this envelope protein is a wild-type F albumen.The F albumen modified of the geneome RNA of the virion of Chan Shenging coding by this way, and on its coating, carry the albumen of described wild-type F albumen and this modification.Wild-type F albumen is provided and increases in the presence of cutting this proteic trypsinase with trans by the step that produces at virion, described virion becomes infective by the wild-type F albumen that cuts on the virion.According to this method, modify the proteic proteolytic enzyme of F even need not cut, also can high titre prepare infectious viral particle.Therefore, virion of the present invention can be to comprise the proteic virion of paramyxovirus wild-type F.Wild-type F albumen and viral genome are unnecessary from paramyxovirus of the same type, and described wild-type F albumen can be the envelope protein from another paramyxovirus.
In addition, can produce the virion that its coating comprises any desirable virus envelope protein except that wild-type F albumen.Particularly, in viral reconstruct, the ideal envelope protein can be expressed the virus vector that comprises this envelope protein with generation in cell.These albumen are had no particular limits.Preferred examples comprises the G albumen (VSV-G) of stomatitis herpesvirus (VSV).Virion of the present invention comprises and contains for example proteic pseudotyped viral vector of VSV-G of envelope protein that described albumen is from the virus the virus of originating except geneome RNA.For wild-type F albumen, infect virion in the cell after, this albumen is not expressed from virus vector, this is because this envelope protein is not encoded in virus genome RNA.
Virion of the present invention can comprise chimeric protein, for example comprises the chimeric protein of cell outskirt, can be at coating surface and one or more albumen of specific cells bonded, adhesion factor for example, part, acceptor, and antibody and fragment, and from the polypeptide of the peplos in the intracellular region.This can produce the carrier that infects the specific tissue target.These carriers can provide with trans by cell inner expression during virus vector reconstruct.Specific examples comprises and contains for example fragment of the receptor binding domain of cytokine of the solvable factor, perhaps the antibody fragment of cell surface protein (WO 01/20989).
Preparation is when having the carrier of defective virus gene, can be for example two or the identical cell of more kinds of bearer type (all having the defective virus gene in every kind the viral genome) importing.Every kind of defective virus albumen is all subsequently by another kind of vector expression and provide.This complementing each other causes infectious viral particle to form, and can be in replication cycle the amplicon virus carrier.That is, when two or during the complementary viral protein of polytype carrier simultaneous inoculation of the present invention, hybrid virus genetic flaw virus vector can be on a large scale and low-cost the preparation.Because these viral deficiency disease virus genes, their genome is littler than intact virus genome, and they can comprise bigger heterologous gene.In addition, because the virogene defective, these viruses are no reproductivity, and dilute in the extracellular, so coinfection power is difficult in these viruses and keeps.Therefore these carriers are no reproductivity, are favourable with regard to this discharges with regard to controling environment.
A large amount of virus vector can be by aforesaid method with viral vector infection to containing in the embryo egg with amplification vector.For example, can produce M gene transgenic chicken and carrier can be inoculated in the egg and increase.The basic skills of using egg to prepare virus vector develop (" Shinkei-kagaku Kenkyu-noSaisentan Protocol III; Bunshi Shinkei Saibou Seirigaku (Leading edgetechniques protocol III in neuroscience research; Molecular; CellularNeurophysiology) ", edited by Nakanishi, etc., KOSEISHA, Osaka, pp.153-172,1993).Particularly, for example zygote is transferred in the incubator, and cultivated 9-12 days at 37 ℃-38 ℃. make embryo growth.Virus vector is inoculated into the chorioallantoic membrane chamber subsequently, zygote is incubated several days so that virus vector propagation.Collect the allantoic fluid that is contained in the virus subsequently.The culture condition of for example cultivating the time length changes according to the recombinant virus that increases.Separating also from allantoic fluid, the purified virus carrier carries out (" Protocols of Virology " by Masato Tashiro, edited by Nagai andIshihama, Medical View, pp.68-73,1995) according to traditional method.
The virus vector that reclaims can be purified to pure substantially.Can carry out purifying by known purifying and separation method, described method comprises filtration, and is centrifugal, column chromatography purification etc., perhaps its combination.This paper term " pure substantially " refers to that the virus vector as component is the major portion in its place sample.Usually, substantially pure virus vector can be by confirming viral source albumen and sample in the ratio of total protein (the albumen that does not comprise adding) as carrier or stablizer be 10% or more than, preferred 20% or more than, more preferably 50% or more than, more preferably 70% or more than, more preferably 80% or more than, even more preferably 90% or more than.Particularly, but the purifying paramyxovirus, for example by using method (the JP-B No.Sho 62-30752 of cellulose sulfuric acid ester or crosslinked Sulfate of polysaccharide; JP-B Sho 62-33879; JP-B Sho62-30753), use the polysaccharide of sulfur acid trehalose and/or the method (WO97/32010) of its degradation production etc.
The adorned M genetic flaw of cleavage site carrier only infects by the cytogamy type in the presence of specific proteases, just carrier can be transferred in the cell.Therefore, carrier of the present invention can be used for the gene therapy of the tissue of targeted expression specific proteases.Normal carrier makes transgenosis arrive the top layer of target tissue; But they can not be penetrated into organization internal.On the other hand, carrier of the present invention has the ability that is penetrated into the target tissue depths with enhanced protease activity.For example, carrier of the present invention can infect cancer cells by infecting to the carrier on top layer, and is transferred to the cancer cells inside of soaking into the healthy tissues depths.
Carrier of the present invention can be used for cancer, and arteriosclerosis, joint disease is rheumatoid arthritis etc. for example.For example, in the joint disease as RA, extracellular matrix degradation is to the destruction of the higher structure (higher order structure) of cartilage such as above-mentioned, and the joint is destroyed.By removing because carrier of the present invention causes its ECM degrading enzymatic activity enhanced cell, the expectation destruction of joint alleviates.In addition, in arteriosclerosis, macrophage derived foam cell continues to assemble.These foam cells are secreted a large amount of metalloproteases, and destruction fibroplasia causes the patch disintegration.The carrier of the application of the invention kills the scavenger cell of expressing MMP, has realized this arteriosclerotic treatment.In addition, as described below, various proteolytic enzyme all activate in cancer.Carrier of the present invention can be used as specific infection and soaks into the therapeutic carrier of cancer.
For preparation comprises the composition of carrier of the present invention, in case of necessity with carrier and ideal pharmaceutically acceptable carrier or solvent coupling." pharmaceutically useful carrier or solvent " refer to can with the carrier material of the transgenosis of administration and not obvious this carrier of inhibition together.For example, carrier can be by using physiological saline, and the physiological saline of phosphate buffered (PBS) suitably dilution is mixed with composition.When carrier was bred in egg, described composition can contain allantoic fluid.In addition, the composition that comprises described carrier can contain carrier or solvent, for example deionized water and 5% dextran solution.In addition, described composition also can contain vegetables oil, suspension agent, sanitising agent, biocide etc.In addition, also sanitas and other additive can be added described composition.The composition that contains carrier of the present invention can be used as sanitising agent and medicine.
Carrier dosage depends on disease type, patient body weight, and the age, sex and symptom, the administration purpose is treated the formulation of administration composition, medication, the type of gene to be imported etc.Yet those skilled in the art can conventionally determine correct dose.Carrier dosage preferably about 10
5-10
11CIU/ml is more preferably about 10
7-10
9CIU/ml, more preferably from about 1 * 10
8-5 * 10
8CIU/ml..Preferably described carrier and pharmaceutically useful carrier are mixed.Be the administration cancerous tissue, carrier can be at a plurality of target sites of many time points administration, make described carrier uniform distribution.The preferred dose of each administration individual human is 2 * 10
9-2 * 10
10CIU.In clinical acceptable side effects limit, can be administered once or more times number.Day administration frequency can similarly be determined.When with the animal of virus vector administration except that the people, for example the dosage of administration can be converted definite according to the weight ratio or the volume ratio (for example, mean value) of the administration target site between target animals and the people above-mentioned dosage.The composition that comprises carrier of the present invention can all mammal species of administration, comprise the people, monkey, mouse, rat, rabbit, sheep, ox, dog etc.
Carrier of the present invention especially can be used for treating cancer.The cell that infects with carrier of the present invention forms synplasm by cytogamy in the presence of proteolytic enzyme.Utilize this character, carrier of the present invention can be used for treating the cancer of specific proteases increased activity.The invention provides and be used for the treatment for cancer composition, it comprises pharmaceutically useful carrier and carrier of the present invention (its coding is by the F albumen that shows the active proteolytic enzyme cutting of enhanced in cancer).In addition, the present invention relates to the purposes of carrier at the preparation cancer treatment compositions.The invention still further relates to the treatment method for cancer, comprise step this carrier administration cancerous tissue.Because the activity of ECM degrading enzyme strengthens in wetting property and transitivity malignant cancer, comprise the carrier that cuts the proteic gene of big F by the ECM degrading enzyme and can be used to the specific infection malignant cancer, thereby cause the death of cancerous tissue.
Carrier of the present invention also comprises heterologous gene.Described heterologous gene can be monitoring carrier or the therapeutic genes marker gene to the infection of cancer.The example of therapeutic gene comprises apoptotic cells inductive gene; The proteic gene of Codocyte cytotoxic activity; Cytokine; And hormone.With directly (in the body) administration cancer or (exsomatizing) administration indirectly of carrier administration cancer of the present invention, wherein said carrier can import cell or other cell in patient source, and described cell can inject cancer.
The cancer of target can be any cancer of the increased activity of wherein specific protease.Example comprises tool invasive and metastatic malignant tumour (lung cancer, cancer of the stomach, colorectal carcinoma, esophagus cancer, mammary cancer etc.).Yet, MMP for example, the proteolytic enzyme of uPA and tPA expression level in some malignant cancer is lower.Therefore, can target on cancer can judge according to the existence or the disappearance of enhanced protease activity.Carrier of the present invention especially can be used for soaking into the submucosal cancer of esophagus cancer, proceeds to the colorectal carcinoma of III and IV phase cancer in internal sphincter, and soak into very dark cause can not be fully by the wetting property melanoma of exenterate.
The accompanying drawing summary
Fig. 1 is the structure of the SeV genome cDNA of F defective, and wherein temperature-sensitive mutation has been imported into the M gene.
Fig. 2 has described the virogene structure of structure, and it is used for suppressing second particle according to the temperature-sensitive mutation that imports the M gene and discharges, and has also described in order to detect and to compare these and has imported the effect of suddenling change and the virogene that makes up or use.
Fig. 3 provides the micro-image that GFP expresses in the proteic cell of representative continuous expression F (LLC-MK2/F7/A), and described cell was cultivated 6 days at 32 ℃ and 37 ℃ respectively after infecting with SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP.
On behalf of use Western trace, Fig. 4 the F protein expression level in the proteic cell of continuous expression SeV-F (LLC-MK2/F7/A) is carried out the time dependent result of semiquantitative determination, described cell is not containing trypsinase, do not contain among the MEM of serum, 32 ℃ or 37 ℃ of cultivations.
Fig. 5 provides and has represented the micro-image that GFP expresses in the LLC-MK2 cell, described cell SeV18+GFP, and SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP infect the back at 32 ℃ with MOI=3, cultivate 3 days for 37 ℃ or 38 ℃.
Fig. 6 has described blood clotting (HA) activity in the LLC-MK2 cells and supernatant of sampling (adding fresh culture simultaneously) in time, described cell SeV18+GFP, SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP infect the back at 32 ℃ with MOI=3,37 ℃ or 38 ℃ of cultivations.
Fig. 7 represents in the cell ratio of M protein level in the M protein level and virus-like particle (VLP).This ratio is measured with the Western trace by using anti-M antibody.The LLC-MK2 cell is from using SeV18+GFP, and SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP 37 ℃ of insulations two days, reclaim culture supernatant after infecting with MOI=3 from cell culture.The culture that each swimming lane contains is equivalent to from 1/10 of culture in each hole of 6 orifice plates.
Fig. 8 cultivates 12,18,24,50 after showing that the LLC-MK2 cell infects with MOI=3 with SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP, or the SEAP activity in 120 hours the culture supernatant.
Fig. 9 shows that infecting the back with SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP with MOI=3 cultivates 24,50, or the HA activity in 120 hours the LLC-MK2 cells and supernatant.
Figure 10 represents to use by the Western trace VLP amount of anti-M TPPA.The LLC-MK2 cell infects the back with SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP with MOI=3 and cultivated 5 days.Centrifugal culture supernatant is to reclaim virus.The culture that each swimming lane contains be equivalent in each hole of 6 orifice plates inclusion 1/10.
Figure 11 shows the cytotoxic activity of estimating according to the amount that is discharged into the LDH in the cell culture medium.LLC-MK2, BEAS-2B or CV-1 cell SeV18+GFP, SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP be with MOI=0.01, and 0.03,0.1,0.3,1,3, or 10 infect.Cell cultures is at serum-free or contain in the substratum of 10%FBS, and carries out the cytotoxic activity experiment in 3 or 6 days respectively after infection.The relative cytotoxic activity value of cell shown in the figure, the cytotoxic activity of its cell with equal number (its 100% all by cytopathy agent (Triton) cracking) is as 100%.
Figure 12 represents the Subcellular Localization of M albumen in the LLC-MK2 cell, this observes by using anti-M antibody to carry out immunostaining, wherein said cell is to use SeV18+GFP, SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ-F-GFP infect the back at 32 ℃ with MOI=1,37 ℃ or 38 ℃ of cells of cultivating 2 days.
Figure 13 provides at observed M of confocal laser microscopically and the proteic Subcellular Localization stereoscopic three-dimensional image of HN.The A-10 cell uses SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP to infect with MOI=1, and cultivates one day at 32 ℃ or 37 ℃ in containing by the substratum of 10% serum subsequently.These images obtain by immunostaining with anti-M antibody and anti-HN antibody.
Figure 14 provides at observed M of confocal laser microscopically and the proteic Subcellular Localization stereoscopic three-dimensional image of HN.The A-10 cell uses SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP to infect with MOI=1, and cultivates two days at 32 ℃ or 37 ℃ in containing by the substratum of 10% serum subsequently.These images obtain by immunostaining with anti-M antibody and anti-HN antibody.
Figure 15 represents the influence of microtubule depolymerization agent to M and the proteic Subcellular Localization of HN.The A-10 cell uses SeV18+SEAP/MtsHNts Δ F-GFP to infect with MOI=1, and immediately with the microtubule depolymerization agent, and colchicine or Omaine add and make in these cells that final concentration is 1 μ M.These cells are 32 ℃ of cultivations in the substratum that contains 10% serum.Two days later, use anti-M antibody and anti-HN antibody pair cell to carry out immunostaining, and observe at the confocal laser microscopically subsequently.These pictorial display the stereoscopic three-dimensional image of M and the proteic Subcellular Localization of HN.
Figure 16 represents the influence of microtubule depolymerization agent to M and the proteic Subcellular Localization of HN.The A-10 cell uses SeV18+/F-GFP or SeV18+/MtsHNts Δ F-GFP to infect with MOI=1, and immediately microtubule depolymerization agent colchicine is added in these cells, makes that final concentration is 1 μ M.These cells are 32 ℃ or 37 ℃ of cultivations in the substratum that contains 10% serum.Two days later, use anti-M antibody and anti-HN antibody pair cell to carry out immunostaining, and observe at the confocal laser microscopically subsequently.These pictorial display the stereoscopic three-dimensional image of M and the proteic Subcellular Localization of HN.
Figure 17 represents to comprise the structure of the M defective type SeV genome cDNA of EGFP gene.
Figure 18 illustrates the structure of F defective type and M defective type SeV genome cDNA.
Figure 19 illustrates the structure of constructed F defective type and/or M defective type SeV gene.
Figure 20 represents to comprise the structure of the M gene expression plasmid of hygromycin gene.
Figure 21 represents that the clone cell of inducible expression's cloning M albumen (with F albumen) infects with the recombinant adenovirus (AcCANCre) of expressing Cre DNA recombinase, carries out sxemiquantitative relatively by M in the Western trace pair cell and the proteic expression level of F then.
Figure 22 represents the viral reconstruct M defective SeV (SeV18+/Δ M-GFP) carried out with helper (LLC-MK2/F7/M) clone # 18 and #62.
Figure 23 shows the virus production power (CIU and HAU time course) of SeV18+/Δ M-GFP
Figure 24 provides the RT-PCR result's who is used for confirming the gene structure in SeV18+/Δ M-GFP virus particle picture and explanation.
Figure 25 represents the result of comparison SeV18+/Δ M-GFP and SeV18+GFP and SeV18+/Δ F-GFP, after wherein the LLC-MK2 cell being infected, the viral protein from these cells and cell cultures is carried out the virus structure that the Western trace comes to confirm from proteic angle SeV18+/Δ M-GFP.
Figure 26 represents the proteic quantitative comparison of viral source in the LLC-MK2 cell culture supernatant that SeV18+/Δ M-GFP and SeV18+/Δ F-GFP (prepared serial dilution and used the Western trace to detect) infect, uses anti-SeV antibody.
Figure 27 shows the HA activity in the LLC-MK2 cell culture supernatant (collecting in time) that infects with MOI=3 with SeV18+/Δ M-GFP or SeV18+/Δ F-GFP.
Figure 28 provides the LLC-MK2 cell that infects with MOI=3 with SeV18+/Δ M-GFP or SeV18+/Δ F-GFP, the fluorescence microscope images that obtains after 5 days.
Figure 29 provides the fluorescence microscope images of the LLC-MK2 cell that is prepared as follows: the LLC-MK2 cell infects with MOI=3 with SeV18+/Δ M-GFP or SeV18+/Δ F-GFP, infect and collect the culture supernatant after 5 days, and use cationic-liposome (Dosper) transfection to the LLC-MK2 cell.Two days later, carry out microscopic examination.
Figure 30 shows the design of the aminoacid sequence of F1/F2 cleavage site (F protein activation site).The recognition sequence of the proteolytic enzyme of high expression level in cancer cells (MMP or uPA) is to design according to the recognition sequence that synthesizes substrate.From last, shown the sequence of SEQ ID NO:40-44.
Figure 31 illustrates the structure of M defective type SeV carrier cDNA, and F activation site is modified in the described carrier.
Figure 32 illustrates the F modification, and the proteolytic enzyme dependent cell pattern of fusion of M defective type sendai virus vector infects.By using LLC-MK2, the modification of susceptible of proof F causes proteolytic enzyme dependent cell pattern of fusion to infect.With every kind of M defective type SeV (SeV/ Δ M-GFP (A, B, C, J, K, and L), SeV/F (MMP#2) Δ M-GFP (D, E, F, M, N, and O), and SeV/F (uPA) Δ M-GFP (G, H, I, P, O, and R)) cells infected, add 0.1 μ g/ml collagenase (clostridium (Clostridium)) (B, E, and H) simultaneously, MMP-2 (C, F, and I), MMP-9 (J, M, and P), uPA (K, N, and Q), and 7.5 μ g/ml trypsin L, Q, and R).After four days, observation of cell under fluorescent microscope.Have only among the tryptic LLC-MK2 of adding, the SeV/ Δ M-GFP that comprises unmodified F causes the fusion of cells infected and peripheral cell, causes the cytogamy type to infect to form syncyte, i.e. synplasm (L).Adding collagenase, among the LLC-MK2 of MMP-2 and MMP-9, SeV/F (MMP#2) the Δ M-GFP that comprises the MMP degraded sequence that imports F causes the cytogamy type to infect to form synplasm (E, F, and M).On the other hand, SeV/ (uPA) the Δ M-GFP that comprises the urokinase type plasminogen activator (uPA) that imports F and tissue-type PA (tPA) degraded sequence according to observations is in the presence of trypsinase, cause the cytogamy type to infect, and after further modifying, when uPA (Q and R) is arranged, form synplasm.
Figure 33 has represented what F modified, and M defective type sendai virus vector infects the proteolytic enzyme dependent cell pattern of fusion of cancer cells.Whether can observe endogenous proteinase selecting cell pattern of fusion with experimental examination infects.Use following cell: HT1080, express the JEG-3 (A, D, and G) of MMP; MKN28 expresses the JEG-3 (B, E, and H) of tPA; And SW620, do not express cell strain (C, F, and I) any in these proteolytic enzyme.In HT1080, have only ten times of infection diffusions or above (D) of SeV/F (MMP#2) Δ M-GFP.In the cell strain MKN28 that expresses tPA, the cytogamy type of only observing SeV/F (uPA) Δ M-GFP infects.In not expressing above-mentioned two kinds of enzymes, among any SW620, do not observe and infect diffusion.
Figure 34 represent by phorbol ester to MMP induce and F modifies, what M defective type sendai virus vector pair cell pattern of fusion infected induce.The expression of MMP-2 and MMP-9 confirms by gelatinase spectrometry (gelatinzymography), wherein has the active part bleach of gel hydrolysis (gelatinolytic) (A).Swimming lane C represents contrast.Swimming lane T is the result who induces the supernatant of back gained with 20nM PMA.The band of corresponding MMP-9 is observed in HT1080 and Panc I, has proved inducing MMP-9.For MMP-2, almost without any detecting among the PancI of active potential type MMP-2 before inducing.Shown in Figure 34 B, the showed cell pattern of fusion infects SeV/F (MMP#2) Δ M-GFP owing to induced MMP-9.
Figure 35 represents what F modified, and M defective type sendai virus vector cytogamy type in vivo infects.Prepare HT1080 and suffered from the cancer nude mice.Wherein, used after the subcutaneous injection 7-9 days, the cancer diameter is greater than the animal of 3mm.The SeV of 50 μ L is once injected animal.Two days later, under fluorescent microscope, observe cancer.Figure A, D, G and J are bright field-of-view images; B, E, the fluoroscopic image of the corresponding GFP of H and K; And C, F, I and L are enlarged images.Regional observation around only in the site of injecting SeV-GFP and SeV/ Δ M-GFP respectively is to fluorescence (figure E and H).Otherwise, observe SeV/F (MMP#2) Δ M-GFP injection fluorescence be diffused into whole cancer (figure K).In enlarged view, the fluorescence susceptible of proof in each cell is SeV-GFP and SeV/ Δ M-GFP; Yet the cell shape of having injected SeV/F (MMP#2) Δ M-GFP is unclear, and cytogamy appears in prompting.
Figure 36 shows what F modified, and the cells in vivo pattern of fusion of M defective type sendai virus vector infects.The ratio of GFP and whole cancer uses NIH Image according to its area estimation among Figure 35.SeV-GFP and SeV/ Δ M-GFP show 10% and 20% infection respectively as a result; And SeV/F (MMP#2) Δ M-GFP shows 90% infection, and obviously diffusion is infected in prompting.
Figure 37 shows and suffers from that in the cancer nude mice F modifies, the antitumous effect of M defective type SeV carrier.Measure the mouse corpus carcinosus among Figure 35 is long-pending.Four groups of SeV are injected diameter 3mm or above cancer.Injection once more two days later, and it is long-pending to measure corpus carcinosus.Injected PBS, the volume of the cancer of SeV-GFP and SeV/ Δ M-GFP shows growth fast.Otherwise the corpus carcinosus that has injected SeV/F (MMP#2) Δ M-GFP long-pending (experiment of Figure 36 show be diffused into whole cancer) is not obviously bred and is kept small volume.Compare with other 3 groups, observe tangible antitumous effect, according to t check P<0.05.
Figure 38 represents that F is uncut, and F modifies, and M defective type SeV carrier infects the proteolytic enzyme expression-selectivity of cancer cells.Proteolytic enzyme is expressed and cause that the selectivity possibility of infection checks in following cell strain: express the HT1080 cell strain of MMP, express the MKN28 cell strain of tPA and the SW620 of expressing protein enzyme hardly.The infection that SeV/F (MMP#2) Δ M-GFP causes is observed in the HT1080 cell strain of expressing MMP but is not observed in the MKN28 cell strain of expressing tPA.The infection that SeV/F (uPA) Δ M-GFP causes is observed in the MKN28 cell strain of expressing tPA, but does not observe in the HT1080 cell strain of expressing MMP.
Figure 39 shows that F-does not cut, and F modifies, and M defective type SeV carrier obtains infection ability, and this is because fibroblast is induced MMP-3 and MMP-7.Induce MMP to cause F to modify by fibroblast, it is to use SW480 and WiDr in external check that the infectivity of M defective type SeV carrier changes.People's fibroblast (hFB) is cultivated the infection (B and D) that causes SeV/F (MMP#2) Δ M-GFP altogether with SW480 and WiDr.This phenomenon does not observe (F) in inductive SW620 does not take place.
Figure 40 shows what F modified, and M defective type SeV carrier infects human aortic smooth muscle cell's MMP selectivity.The infection of SeV/ Δ M-GFP can only be proceeded by adding trypsinase.Otherwise the infection of SeV/F (MMP#2) Δ M-GFP is adding collagenase, and MMP-2 continues behind MMP-3 and the MMP-9.
Figure 41 represents the proteic cutting of proteolytic enzyme dependency F in the M defective type SeV carrier that F modifies.The F0 that confirms Sendai virus by the Western trace is cut into F1 through the proteolytic enzyme dependency.The M defective type SeV carrier that comprises the F of unmodified (is shown in swimming lane 1,4,7, with 10), the M defective type SeV carrier that has inserted the MMP#2 sequence in F (is shown in swimming lane 2,5,8, with 11), and the M defective type SeV carrier that has inserted the uPA sequence in F (is shown in swimming lane 3,6,9, with 12) ((swimming lane 1,2 and 3) was untreated in 30 minutes 37 ℃ of processing with above-mentioned proteolytic enzyme; 0.1ng/mL MMP-9 (swimming lane 4,5 and 6); 0.1ng/mL uPA (swimming lane 7,8 and 9); With 7.5 μ g/mL trypsin swimming lanes 10,11 and 12)).As a result, according to the protease substrate that inserts the F1 cutting appears.Promptly, the F albumen of trypsinase cutting F unmodified M defective type SeV carrier, the F albumen of those M defective typies SeV carrier of MMP#2 sequence has been inserted in the MMP-9 cutting in F albumen, the F albumen of those M defective typies SeV carrier of uPA sequence has been inserted in the uPA cutting in F albumen.
Figure 42 shows the generation of F bag matter district deletion mutant, and by with HN simultaneously expression ratio its cause fusion power.Figure 42 A is the structure of Sendai virus F albumen cytoplasmic region deletion mutant.From last is SEQ ID NO:76-79.Figure 42 B shows the generation of F albumen cytoplasmic region deletion mutant and expresses the comparison that causes fusion power that is obtained simultaneously with HN.Proteic cytoplasmic region deletion mutant of Sendai virus F and HN express in adding the tryptic LLC-MK2 cell of 7.5 μ g/mL simultaneously.After four days, carry out nuclear staining, and counting forms the number of plasmodial nuclear with phenodin.
Figure 43 has shown that the fusion power that causes that the F/HN chimeric protein produces increases severely.Figure 43 A shows the structure of F/HN chimeric protein.Joint sequence is described in SEQ ID NO:80.Figure 43 B shows by inserting joint increases the fusion power that causes of F/HN chimeric protein.Every kind of Sendai virus F/HN chimeric protein and HN express in adding the tryptic LLC-MK2 cell of 7.5 μ g/mL simultaneously.
The figure of Figure 44 and photo have been summarized MMP substrate sequence have been inserted in the F cleavage site of F/HN chimeric protein.Figure 44 A diagram has been inserted the structure of the F modification type F/HN chimeric protein of MMP substrate sequence.From last, SEQ ID NO:81-89.Figure 44 B illustrates because the synplasm that the expression of F modification type F/HN causes in the HT1080 cell of expression MMP forms.
The modification that Figure 45 has shown F peptide (fusogenic peptide) with and the concentration dependent effect that forms of involutory cell space.Figure 45 A is that fusogenic peptide is modified design of graphics.From last, SEQ ID NO:90-93.
Figure 45 B shows and the concentration dependent MMP# 2 of collagenase (clostridium) that adds, the fusion power that causes of MMP# 6 and MMP#6G12A.
Figure 46 has shown that the F of improvement modifies the genome structure of M defective type Sendai virus.
The F that Figure 47 illustrates improvement modifies the diffusion of M defective type Sendai virus in the cancer of low expression level MMP.Show among the figure that the F of improvement modifies M defective type Sendai virus and infects two days later the diffusion of cytogamy.
Figure 48 illustrates the expression of MMP-2 and MMP-9 in the cancerous cell line.The acceptor that has shown the gel signal recognition particle of cancerous cell line supernatant.
Figure 49 has shown the diffusion in the tumour of low expression level MMP of the M defective type Sendai virus that the F of improvement modifies.Marked among the figure and infected every two days later 0.3cm
2The synplasm number.Expression SeV18+/Δ the M-GFP of " Δ M ", " #2 " expression SeV18+/F (MMP#2) Δ M-GFP, " #6 " expression SeV/F (MMP#6) Δ M-GFP, " #6ct14 " represents SeV (TDK)/Fct14 (MMP#6) Δ M-GFP, " F/HN mosaic " expression SeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP.
Preferred forms
The embodiment that hereinafter specifically described of the present invention; But should not be construed as limitation of the present invention.The documents of all references is included in this part of book as an illustration.
1. make up the SeV carrier that the particle with reduction or defective forms ability
[embodiment 1] makes up temperature-sensitive mutation SeV genome cDNA:
Make up the SeV genome cDNA, wherein temperature-sensitive mutation has been imported the M gene.Fig. 1 illustrates the structure of described cDNA, and it is described below.(J.Virology 74,6564-6569,2000 for pSeV18+/Δ F-GFP:Li, H.-O. etc. to contain the F defective type total length Sendai virus genome cDNA of the EGFP gene that is positioned at the F deletion segment; WO 00/70070) digest with NaeI.The fragment (4922bp) that contains the M gene is separated by agarose gel electrophoresis.After downcutting the purpose band, (QIAGEN, Bothell WA) reclaim DNA, and subclone are to pBluescript II (Stratagene, La Jolla, EcoRV site CA) (pBlueNaeIfrg-Δ FGFP structures) by QIAEXII gel extraction system.The M gene that temperature-sensitive mutation is imported pBlueNaeIfrg-Δ FGFP is by using QuikChange
TM(Stratagene, La Jolla CA) carry out according to the method in the test kit explanation site-directed mutagenesis test kit.According to the sequence (Kondo, T. etc., J.Biol.Chem.268,21924-21930,1993) of the Cl.151 strain of report such as Kondo, three types the sudden change that imports the M gene is G69E, T116A and A183S.The sequence synthetic oligonucleotide that is used to import sudden change is as follows:
G69E(5′-gaaacaaacaaccaatctagagagcgtatctgacttgac-3′/SEQ?ID?NO:11,5′-gtcaagtcagatacgctctctagattggttgtttgtttc-3′/SEQ?ID?NO:12),
T116A (5 '-attacggtgaggagggctgttcgagcaggag-3 '/SEQ ID NO:13,5 '-ctcctgctcgaacagccctcctcaccgtaat-3 '/SEQ ID NO:14) and
A183S(5′-ggggcaatcaccatatccaagatcccaaagacc-3′/SEQ?ID?NO:15,5′-ggtctttgggatcttggatatggtgattgcccc-3′/SEQ?ID?NO:16).
The M gene of plasmid pBlueNaeIfrg-Δ FGFP contains above-mentioned three kinds of sudden changes, and it is by SalI digestion and carry out part digestion with ApaLI subsequently.The fragment that contains whole M genes is recovered (2644bp) subsequently.PSeV18+/Δ F-GFP digests with ApaLI/NheI, and reclaims the fragment (6287bp) that contains the HN gene.These two fragments are arrived Litmus38 (New England Biolabs, Beverly, MA) SalI/NheI site (LitmusSalI/NheIfrg-Mts Δ FGFP structure) by subclone.By using QuikChange
TMThe site-directed mutagenesis test kit imports the identical mode of M gene with temperature-sensitive mutation suddenling change and imports LitmusSalI/NheIfrg-Mts Δ FGFP HN gene according to the method in the test kit explanation.According to the sequence (Thompson, S.D. etc., Virology160,1-8,1987) of the ts271 strain of report such as Thompson, three sudden changes that import the HN gene are A262T, G264R and K461G.The sequence synthetic oligonucleotide that is used to import sudden change is as follows:
A262T/G264R (5 '-catgctctgtggtgacaacccggactaggggttatca-3 '/SEQ ID NO:17,5 '-tgataacccctagtccgggttgtcaccacagagcatg-3 '/SEQ ID NO:18) and
K461G(5′-cttgtctagaccaggaaatgaagagtgcaattggtacaata-3′/SEQ?ID?NO:19,5′-tattgtaccaattgcactcttcatttcctggtctagacaag-3′/SEQ?ID?NO:20).
Though sudden change can be imported the M and the HN gene of different carriers, also all sudden changes can be imported in M and the HN gene by plasmid (LitmusSalI/NheIfrg-Δ FGFP), wherein said plasmid is to obtain by the fragment (8931bp) that contains M and HN gene at the SalI/NheI site of Litmus38 subclone, and described fragment obtains with Sal I/Nhe I digestion pSev18+/Δ F-GFP.Import sudden change continuously and cause importing altogether six temperature-sensitive mutations; Three sudden changes are arranged in the M gene, and three sudden changes are arranged in HN gene (LitmusSalI/NheIfrg-MtsHNts Δ FGFP structure).
LitmusSalI/NheIfrg-MtsHNts Δ FGFP digests and obtains the fragment of 8931bp with SalI/NheI.Another fragment (8294bp) that lacks M and HN gene obtains by digest pSeV18+/Δ F-GFP with SalI/NheI.These two fragments link together and make up F defective type total length Sendai virus genome cDNA (pSeV18+/MtsHNts Δ F-GFP), and described cDNA comprises 6 temperature-sensitive mutations that are arranged in M and HN gene, and the EGFP gene is positioned at F deletion segment (Fig. 2).
In addition, for expression of gene level in the quantitative plasmid, made up the cDNA that contains secretor type alkaline phosphatase (SEAP) gene.Particularly, cut out the SEAP fragment (1638bp) (WO 00/70070) that contains the termination signal interference sequence start signal that is positioned at SEAP gene downstream with NotI.After carrying out electrophoresis, reclaim this fragment and purifying.Subsequently this fragment is inserted pSeV18+/Δ F-GFP and pSeV18+/MtsHNts Δ F-GFP NotI site separately.The plasmid that produces is respectively pSeV18+SEAP/ Δ F-GFP and pSeV18+SEAP/MtsHNts Δ F-GFP (Fig. 2).
[embodiment 2] import the reconstruct and the amplification of the virus of temperature-sensitive mutation:
Virus reconstruct carries out according to reported method such as Li that (J.Virology 74 for Li, H.-O. etc., 6564-6569,2000; WO 00/70070).Use the F albumen helper of induction type Cre/loxP expression system preparation to be used for reconstruct F defective virus.This system utilizes the pCALNdLw plasmid, and described plasmid is designed to express the inducible genes product expression (Arai, T. etc., J.Virol.72,1115-1121,1988) of Cre DNA recombinase-mediated.In this system, method (Saito, I. etc., Nucleic Acids Res.23,3816-3821,1995 of use Saito etc. with recombinant adenovirus (AxCANCre) the infection transformant of expressing the CreDNA recombinase; Arai, T. etc., J.Virol.72,1115-1121,1998) in carrying the transformant of this plasmid, express the gene that inserts.For SeV-F albumen, the transformant that contains the F gene claims LLC-MK2/F7 at this paper, and the proteic cell of continuous expression F claims LLC-MK2/F7/A at this paper after AxCANCre induces.
Following the carrying out of viral reconstruct that comprises temperature-sensitive mutation: with the LLC-MK2 cell with 5 * 10
6Cell/ware is layered on the ware of 100-mm, and cultivates subsequently 24 hours.With the vaccinia virus recombinant of expressing the T7 polysaccharase (handling 20 minutes) (PLWUV-VacT7:Fuerst by psoralene and long wavelength ultraviolet light (365nm), T.R. etc., Proc.Natl.Acad.Sci.USA 83,8122-8126,1986) infected (MOI=2) these cells one hour in room temperature.With serum-free MEM washed cell.Plasmid, pSeV18+/MtsHNts Δ F-GFP, pGEM/NP, pGEM/P, pGEM/L and pGEM/F-HN (Kato, A. etc., Genes Cells 1,569-579,1996), respectively with 12 μ g, 4 μ g, 2 μ g, the amount of 4 μ g and 4 μ g/ wares is resuspended in Opti-MEM (Gibco-BRL, Rockville, MD) in.(Qiagen, Bothell WA) also mix to add the SuperFect transfection reagent that is equivalent to 1 μ g DNA/5 μ L.The mixture that produces was placed 15 minutes in room temperature, and added the Opti-MEM that 3ml contains 3%FBS subsequently.Mixture is added cell.Cultivate after 5 hours, use serum-free MEM washed cell twice, and (MO) with 7.5 μ g/ml trypsin Gibco-BRL, Rockville cultivates among MEM MD) for AraC:Sigma, St.Louis containing 40 μ g/ml cytosine(Cyt)-β-D-arbinofuranose glycosides.Cultivate after 24 hours, (J.Virology 74 for LLC-MK2/F7/A:Li, H.-O. etc., 6564-6569,2000 for the proteic cell of continuous expression F; WO 00/70070) with 8.5 * 10
6The amount of cell/ware is carried out the upper strata and is covered.These cells in containing 40 μ g/mL AraC and the tryptic MEM of 7.5 μ g/mL, are cultivated two days (P0) at 37 ℃ subsequently again.Collecting cell also will precipitate with 2ml Opti-MEM/ ware resuspended.Freeze thawing treatment three times, and with the lysate direct transfection in LLC-MK2/F7/A.Cell in containing 40 μ g/mL AraC and the tryptic serum-free MEM of 7.5 μ g/mL in 32 ℃ of cultivations (P1).After 5-7 days, infect the LLC-MK2/F7/A of preparation just with part culture supernatant, and in the identical 32 ℃ of cultivations (P2) among 40 μ g/mLAraC and the tryptic serum-free MEM of 7.5 μ g/mL that contain.After 3-5 days, the just LLC-MK2/F7/A of preparation of subinfection again, and with cell in only containing the tryptic serum-free MEM of 7.5 μ g/mL 32 ℃ cultivate 3-5 days (P3).BSA is added in the culture supernatant that reclaims with final concentration 1%, and mixture is stored in-80 ℃.The viral solution that stores is thawed, and be used for later experiment.
The titre of Zhi Bei viral solution is as follows by this method: SeV18+/Δ F-GFP, 3 * 10
8SeV18+/MtsHNts Δ F-GFP, 7 * 10
7SeV18+SEAP/ Δ F-GFP, 1.8 * 10
8SeV18+SEAP/MtsHNts Δ F-GFP, 8.9 * 10
7GFP-CIU/mL (GFP-CIU defines in WO00/70070).On the other hand, for the carrier that comprises GFP, be defined as GFP-CIU by the direct detection CIU that GFP measured.Confirm that the GFP-CIU value equates (WO 00/70070) substantially with corresponding C IU value.In the mensuration of SeV 18+/Δ F-GFP and SeV18+/MtsHNts Δ F-GFP titre, after the infection of 32 ℃ and the 37 ℃ plaques of observing the proteic cell of continuous expression F (LLC-MK2/F7/A), spread.Fig. 3 shows back 6 days observed figures of infection.SeV18+/MtsHNts Δ F-GFP plaque is 32 ℃ of diffusions that have to a certain degree, but reduces greatly 37 ℃ of diffusions.This prompting virus particle is formed on 37 ℃ of reductions.
[embodiment 3] culture temperature (32 ℃) is to the influence of viral reconstruct:
In the tentative reconstruct of the virus that imports temperature-sensitive mutation (embodiment 2), P1 and all cultivations are subsequently all carried out at 32 ℃.Use this temperature to be since the contrast virus of importing that is used for evaluate temperature susceptibility sudden change 32 ℃ of well-growns (Kondo, T. etc., J.Biol.Chem.268,21924-21930,1993; Thompson, S.D. etc., Virology 160,1-8,1987).The announcement of scrutinizing to test conditions, reconstruct (and for other virus except the virus that has wherein imported temperature-sensitive mutation) for SeV, by carrying out P1 and cultivation subsequently can improve reconstruct efficient at 32 ℃, thus the virus that is difficult to obtain before very possible the recovery.
Consideration improves 32 ℃ of reconstruct efficient two reasons.First point with different 37 ℃ of cultivations, thinks that the cytotoxic activity that is caused by AraC (purpose of replenishing it is to suppress the vaccinia virus amplification) is suppressed when 32 ℃ of cultivations.Under viral reconstruction condition, at 37 ℃, contain and cultivate the LLC-MK2/F7/A cell among 40 μ g/ml AraC and the tryptic serum-free MEM of 7.5 μ g/ml after 3-4 days, cause cytoclasis, comprise that the cell of peeling off increases.But can effectively continue 7-10 days and cell does not suffer damage yet 32 ℃ of cultivations.Reconstruct transcribe and/or duplicating efficiency bad, perhaps during the bad SeV of the formation of infectious virus particle, successfully be considered to cultivate the direct reflection of time length.Second is, when 32 ℃ of culturing cells, can keep the F protein expression among the LLC-MK2/F7/A.With the 37 ℃ of cultivations in containing the MEM of 10%FBS of the proteic LLC-MK2/F7/A cell of continuous expression F, up to being paved with 6 orifice plates, then with containing the tryptic serum-free MEM of 7.5 μ g/ml replacement medium, and further at 32 ℃ or 37 ℃ of culturing cells.Use the cell curette to reclaim cell in time, and carry out the Western trace with F albumen in the semi-quantitative analysis cell with anti-F protein antibodies (mouse monoclonal antibody).The F protein expression continues two days at 37 ℃, reduces subsequently.Yet, continue at least 8 days (Fig. 4) 32 ℃ of expression.These results have confirmed that viral reconstruct is 32 ℃ validity (P1 is after the stage).
Above-mentioned Western trace uses following method to carry out: the cell that reclaim in a hole from 6 orifice plates is kept at-80 ℃, dilutes sample buffer (the Red LoadingBuffer Pack of SDS-PAGE then at 100 μ L 1x; New England Biolabs, Beverly thaws in MA).98 ℃ of heated sample 10 minutes, centrifugal subsequently, and branch supernatant liquors such as 10-μ l are added in (multigel10/20 on the SDS-PAGE gel; Daiichi Pure Chemicals Co., Ltd., Tokyo, Japan).At the 15mA electrophoresis after 2.5 hours, use semidrying to carry out albumen being transferred to pvdf membrane (ImmobilonPVDF transfer membrane in one hour at 100mA; Millipore, Bedford, MA).Transfer film is immersed in confining liquid (BlockAce; Snow Brand Milk Products Co., Ltd., Sapporo, Japan) in 4 ℃ kept one hour or more than, in the first antibody solution that contains 10%Block Ace (replenishing the anti-F protein antibodies of 1/1000 volume), soak, and subsequently at 4 ℃ of described films that spend the night.Again with after the TBS washing 3 times, be immersed in the anti-mouse IgG+IgM of the HPR coupling type antibody that contains 10%Block Ace and replenish 1/1000 volume (goat F (ab ') 2 anti-mouse IgG+IgM, HRP with the TBS that contains 0.05%Tween 20 (TBST) washing 3 times; BioSource Int., Camarillo is in second antibody solution CA).Stirred sample 1 hour in room temperature subsequently.Described film washs 3 times with TBST, and washs 3 times with TBS.Use chemoluminescence method (ECL western trace detection reagent subsequently; Amersham Pharmacia biotech, Uppsala, Sweden) albumen on the detection film.
[embodiment 4] have quantitatively imported the secondary release particles (HA measures, the Western trace) of the virus of temperature-sensitive mutation of the present invention:
Utilization comprises the self-replicating type SeV of all viral proteins and GFP fragment (780bp), compared the level of secondary release particles with SeV18+/Δ F-GFP and SeV18+/MtsHNts Δ F-GFP, wherein said GFP fragment comprises the termination signal-interference sequence-start signal (SeV18+GFP: Fig. 2) that is positioned at GFP gene downstream in the NotI site.
The LLC-MK2 cell grows into the full end on 6 orifice plates.With 3 * 10
7Every kind of viral solution of CIU/ml adds in these cells with the every holes of 100 μ L (MOI=3), and transfectional cell one hour.Behind the MEM washed cell, serum-free MEM (1ml) is added each hole, and respectively with cell at 32 ℃, 37 ℃ and 38 ℃ of cultivations.Sampling every day, and after sampling, at once the fresh serum-free MEM of 1ml is added in the remaining cell.Cultivate in time and take a sample.Infected back 3 days, and observed GFP and express demonstration under fluorescent microscope, three types virus infection level of (32 ℃, 37 ℃ and 38 ℃) under three kinds of temperature condition is almost equal, and GFP expresses similar (Fig. 5).
The secondary release particles use hemagglutination activity (HA activity) experimental basis Kato etc. (Kato, A., etc., Genes Cell 1,569-579,1996) method carry out quantitatively.Particularly, with round bottom 96 orifice plates, use PBS serial dilution virus solution.Twice 50 μ L are diluted in each hole and carry out continuously.(Cosmo Bio, Tokyo Japan), are diluted to 1% with PBS to the chicken blood of 50 μ L preservations, add in the 50 μ L virus solution, and mixture are placed one hour at 4 ℃.Check red cell agglutination.Viral dilution degree the highest in the agglutinative sample is defined as the HA activity.In addition, a blood coagulation unit (HAU) is calculated as 1 * 10
6Virus, and be expressed as viral load (Fig. 6).The secondary release particles of SeV18+/MtsHNts Δ F-GFP obviously reduces, and at 37 ℃, be defined as SeV18+/Δ F-GFP the secondary release particles level about 1/10.SeV18+/MtsHNts Δ F-GFP virion is formed on 32 ℃ of reductions, though and have only some virions to produce, still can be prepared to a certain extent.
The Western trace is used for quantitative secondary release particles.Mode similar to the above infects the LLC-MK2 cell with described virus with MOI=3, and reclaims cleer and peaceful cell on the culture in back two days in infection.The culture supernatant is 48, and 000xg reclaimed virion in centrifugal 45 minutes.Behind the SDS-PAGE, carry out the Western trace and detect these albumen to use anti-M protein antibodies.Should resist-the M protein antibodies is freshly prepd polyclonal antibody, it prepares from the rabbit anteserum with the mixture immunity of following three kinds of synthetic peptides: corresponding SeV M proteic amino acid/11-13 (MADIYRFPKFSYE+Cys/SEQ ID NO:21), 23-35 (LRTGPDKKAIPH+Cys/SEQ ID NO:22), and 336-348 (Cys+NVVAKNIGRIRKL/SEQ ID NO:23).Carry out the Western trace according to the method described in the embodiment 3, the promptly anti-M protein antibodies of first antibody wherein, the extent of dilution with 1/4000 uses, its secondary antibody promptly with the anti-rabbit igg antibody of HRP bonded (anti-rabbit igg (goat) H+L conj.; ICN P., Aurola, OH), the extent of dilution with 1/5000 uses.Under the situation of the cell that SeV18+/MtsHNts Δ F-GFP infects, M albumen is with similar degree wide expression, but the expression of viral protein reduces (Fig. 7).The Western trace confirms that also the virion that secondary discharges reduces.
[embodiment 5] import the viral contained expression of gene level (SEAP experiment) of temperature-sensitive mutation:
The release of SeV18+/MtsHNts Δ F-GFP second particle reduces.If contained expression of gene reduces simultaneously, this be modified in the expression vector nonsensical.Therefore, assessment gene expression dose.Infect the LLC-MK2 cell with SeV18+SEAP/ Δ F-GFP or SeV18+SEAP/MtsHNts Δ F-GFP with MOI=3, and (infected the back 12,18,24,50 and 120 hours) in time and collect the culture supernatant.SEAP in the supernatant is active, and (Japan) explanation is measured according to test kit for TOYOBO, Osaka with Reporter Assay Kit-SEAP.Two types SEAP active quite (Fig. 8).Also measured same sample hemagglutination activity (HA activity).The HA activity of SeV18+SEAP/MtsHNts Δ F-GFP is reduced to 1/10th (Fig. 9).By 48,000xg gathered in the crops viral protein in centrifugal 45 minutes from sample virus, and used anti-M antibody to carry out semiquantitative determination by the Western trace subsequently.The level of viral protein also reduces (Figure 10) in the supernatant.It is about 1/10 that these discoveries show that level that inducing temperature susceptibility sudden change discharges second particle is reduced to, and contained expression of gene level does not reduce substantially.
[embodiment 6] import the cytotoxic activity (LDH experiment) of the virus of temperature-sensitive mutation:
The SeV infection normally has cytotoxic activity.Check the influence of the sudden change that imports thus from this respect.LLC-MK2, BEAS-2B and CV-1 cell are respectively with 2.5 * 10
4Cells/well is laid on (100 μ L/ hole) on 96 orifice plates, cultivates then.LLC-MK2 and CV-1 cultivate in containing the MEM of 10%FBS, and BEAS-2B are cultivated (Gibco-BRL, Rockville is in mixed culture medium MD) at 1: 1 the D-MEM that contains 10%FBS and RPMI.Cultivate after 24 hours, SeV18+/Δ F-GFP by adding 5 μ L/ holes or SeV18+/MtsHNts Δ F-GFP solution (with the MEM dilution that contains 1% BSA) carry out virus infection.After 6 hours, the substratum that contains viral solution is removed, and replaces with corresponding fresh substratum (containing or do not contain 10%FBS).If use no FBS substratum, infect back 3 days to the sampling of culture supernatant, contain the FBS substratum if perhaps use, infect sampling in back 6 days.(Roche, Basel is Switzerland) according to test kit explanation analysis of cells cytotoxic activity by using the cytotoxic activity detection kit.Virus vector does not have cytotoxic activity in LLC-MK2.In addition, the SeV18+/MtsHNts Δ F-GFP cytotoxic activity of measuring among CV-1 and the BEAS-2B is equivalent to or less than the cytotoxic activity (Figure 11) of SeV18+/Δ F-GFP.Therefore, owing to import not inducing cell cytotoxic activity of inhibition that second particle that temperature sensitive mutation causes discharges.
[embodiment 7] research second particle discharges the mechanism that suppresses:
The second particle relevant with importing temperature-sensitive mutation for explanation discharges the part mechanism that suppresses, and detected the proteic Subcellular Localization of M.The LLC-MK2 cell infects with all types of SeV (SeV18+GFP, SeV18+/Δ F-GFP, SeV18+/MtsHNts Δ F-GFP), and at 32 ℃, cultivates two days for 37 ℃ or 38 ℃.Described cell carries out immunostaining with anti-M antibody.The following immunostaining that carries out: with PBS washing culturing cell once, adds the freezing methyl alcohol that arrives-20 ℃, and 4 ℃ of fixed cells 15 minutes.Behind PBS washed cell 3 times, sealed one hour with the PBS solution that contains 2% lowlenthal serum and 0.1%Triton in room temperature.After washing three times again with PBS, with cell and the first antibody solution (the anti-M antibody of 10 μ g/mL) that contains 2% lowlenthal serum 37 ℃ of insulations 30 minutes.After PBS washing 3 times, with the secondary antibody solution that contains 2% lowlenthal serum (10 μ g/mL Alexa Fluor 488 goat anti-rabbit iggs (H+L) conjugates: Molecular Probes, Eugene, OR) 37 ℃ with cell response 15 minutes.At last, again with after the PBS washing three times, observation of cell under fluorescent microscope.For containing the proteic self-replicating type of F and HN SeV18+GFP, under all detected temperatures, can detect spissated M albumen (Figure 12) at cell surface.This M albumen has report (Virology 71 for Yoshida, T. etc., 143-161,1976) before concentrating, and infers the site that its reflection virus particle forms.Particularly, for SeV18+GFP, the M albumen locating and displaying of cell surface is normal under all temperature, shows the virus particle that has formed capacity.On the other hand, for SeV18+/Δ F-GFP, M albumen is concentrated in 38 ℃ of violent reductions.It is believed that M albumen is positioned cell surface, close with F albumen and the proteic kytoplasm caudal knot of HN that (J.Virology 68 for Sanderson, C.M. etc., 69-76,1994; Ali, A. etc., Virology 276,289-303,2000).Because one of these two kinds of albumen are that F albumen lacks in SeV18+/Δ F-GFP, F albumen defective is inferred is positioned with influence to M albumen.Described influence expection is stronger to SeV18+/MtsHNts Δ F-GFP, even and also expection is at 37 ℃, and M albumen location will be reduced numbers of particles disturbed and that secondary discharges.
The inhibition mechanism (2) that [embodiment 8] research second particle discharges:
For more studying the proteic Subcellular Localization of SeV in great detail, use confocal laser microscope (MRC1024; Bio-Rad Laboratories Inc., Hercules CA) analyzes.A-10 cell (rat myoblasts) infects respectively with SeV18+SEAP/ Δ F-GFP and SeV18+SEAP/MtsHNts Δ F-GFP (MOI=1), and cultivates at 32 ℃ or 37 ℃ in the MEM that contains 10% serum subsequently.One or two days later, use anti-M antibody and anti-HN antibody pair cell to carry out immunostaining.The following immunostaining that carries out: the cells infected culture with the PBS washing once.The methyl alcohol that is cooled to-20 ℃ is added in the cell, and 4 ℃ of fixed cells 15 minutes.Described cell washs 3 times with PBS, and contains 2% lowlenthal serum in the room temperature use subsequently, the PBS solution sealing of 1%BSA and 0.1%Triton one hour.Described cell reacted 30 minutes at 37 ℃ with the anti-M first antibody solution (the anti-M antibody of 10 μ g/mL) that contains 2% lowlenthal serum.Subsequently cell and anti-HN first antibody solution (the anti-HN antibody of 1 μ g/mL (IL4-1)) were reacted 30 minutes at 37 ℃.After PBS washing three times, described cell and the secondary antibody solution (10 μ g/mL Alexa Fluor 568 goat anti-rabbit iggs (H+L) conjugates and 10 μ g/mL Alexa Fluor 488 goat anti-mouse IgG (H+L) conjugate: the MolecularProbes that contain 2% lowlenthal serum, Eugene is OR) 37 ℃ of reactions 15 minutes.Cell washs three times with PBS, and (Molecular Probes, Eugene OR) dyes to nuclear with the TO PRO3 that dilutes 4000 times.Described cell was placed 15 minutes in room temperature.At last, for preventing quencher (quenching), (Molecular Probes, Eugene OR) replace liquid, and it is observation of cell under Laser Scanning Confocal Microscope to use Slow FadeAntifade Kit solution.Figure 13 shows infection result one day after.The red M albumen location of representing; The green HN albumen location of representing; And yellow co for both.Scarlet part (Far red) is through color conversion, and therefore blueness is represented nucleus.For SeV18+SEAP/ Δ F-GFP, every kind of proteic station-keeping mode difference between 32 ℃ and 37 ℃ is little, and observes the location of M albumen at cell surface.On the other hand, for SeV18+SEAP/MtsHNts Δ F-GFP, every kind of albumen location under above-mentioned two temperature is different with the location among the SeV18+SEAP/ Δ F-GFP.Particularly, almost without any M albumen location and cell surface.Particularly, at 37 ℃, M almost completely separates with HN albumen, makes M albumen be positioned to infer the site (for example near golgi body) near the microtubule intermediate.From infect the back cultivate two days cell obtained similar result.Especially in the cell that SeV18+SEAP/MtsHNts Δ F-GFP-infects, ubcellular M albumen is positioned at infection one day after and do not change (Figure 14) between two days, and protein transport shows and stops.This result shows that also M albumen location defective causes because the second particle that the virus of importing temperature-sensitive mutation causes discharges minimizing, and it is formed with vital role to particle.
After the cell infection SeV18+SEAP/MtsHNts Δ F-GFP when cultivating for 32 ℃, the plesiomorphism (Figure 13) of proteic form of painted M and microtubule.For showing the participation of microtubule, add the reagent that strengthens microtubule depolymerization, studied the localized change of M albumen (with HN albumen) then.The A-10 cell infects with MOI=1 with SeV18+SEAP/MtsHNts Δ F-GFP, and immediately with the final concentration of 1mM add depolymerization reagent colchicine (Nakarai Tesque, Kyoto, Japan) or Omaine (Nakarai Tesque, Kyoto, Japan).Subsequently at 32 ℃ of culturing cells.Infected back two days, the proteic Subcellular Localization of M and HN is observed by above-mentioned same method.When lacking depolymerizing agent, M albumen is distributed in similar to microtubule (Figure 13) on the form.Yet, adds depolymerizing agent and cause this structural damage, and described Protein Detection is big fibrous texture (Figure 15).This structure can be the polymkeric substance of M albumen itself, perhaps with the residue bonded M albumen of depolymerization microtubule.In either case, as shown in figure 13, conclude credibly that as if M albumen is positioned at SeV18+SEAP/MtsHNts Δ F-GFP infection back on the microtubule of 32 ℃ of cultured cells.
For proving that the location of above-mentioned M albumen in microtubule is the feature of temperature sensitivity virus, assessed viral SeV18+/Δ F-GFP and SeV18+/MtsHNts Δ F-GFP and infected the influence that the back changes about the right M albumen of microtubule depolymerization agent (colchicine) (with HN albumen) location.The A-10 cell is infected with MOI=1 by SeV18+/Δ F-GFP or SeV18+/MtsHNts Δ F-GFP, and adds described depolymerizing agent colchicine with the final concentration of 1 μ M immediately.Described cell cultures is at 32 ℃ or 37 ℃.Infected back two days, the Subcellular Localization of M albumen (with HN albumen) is observed by above-mentioned same procedure.The result is presented among Figure 16.The cell of two kinds of virus infectiones shows similar feature.Particularly, when behind the cell infection when 32 ℃ are cultivated, observed M albumen is big filamentary structure, similar with among Figure 15.The coexistence of M albumen and microtubule only sees the situation that SeV18+/Δ F-GFP infects.Particularly, in the F-GFP infection of usefulness SeV18+/MtsHNts Δ and in 37 ℃ of cultured cells, observed M albumen is positioned at the zone of inferring near golgi body.
According to above result, can release to draw a conclusion: M albumen is synthetic near golgi body; Its along microtubule (for example with dynein for example Actin muscle combine) around the transporte to cells, main and F and the proteic kytoplasm caudal knot of HN close that (J.Virology 68 for Sanderson, C.M. etc., 69-76,1994; Ali, A. etc., Virology 276,289-303,2000); And M albumen is positioned cell surface, forms particle then.In comprising the virus of temperature-sensitive mutation, all normal at 32 ℃ up to all incidents of the intracellular transport of carrying out along microtubule.Yet translocating to cell surface from microtubule can be hindered, and causes the location along microtubule.At 37 ℃, also be obstructed even infer along the intracellular transport of microtubule, observe thus and be positioned near the golgi body.Near synthetic the inferring golgi body of M albumen taken place.Yet, may observe the M protein aggregation in these sites, and possibility self synthetic zone is in other place.Yet, it is reported, tubulin, promptly the composition of microtubule activates and participates in SeV and transcribes and duplicate (Moyer, S.A. etc., Proc.Natl.Acad.Sci.U.S.A.83,5405-5409,1986; Ogino, T. etc., J.Biol.Chem.274,35999-36008,1999).Yet, because golgi body is positioned near the centrosome, estimate that wherein tubulin exists in a large number, described golgi body can synthesize (that is, near golgi body) near microtubule centrosome place.In addition, although the M gene of SeV mutant strain F1-R contains sudden change, it modifies microtubule behind cells infected, and described modification can make particle form the cell polarity (Tashiro, M. etc., J.Virol.67,5902-5910,1993) that does not rely on the F1-R strain.In other words, present embodiment gained result can explain along the intracellular transport of tubulin by inferring M albumen.In the mechanism of inferring, temperature-sensitive mutation is imported M and HN gene can cause defective type ubcellular M albumen location, the minimizing that causes second particle to discharge.
[embodiment 9] make up the genome cDNA of the M gene defection type SeV that comprises the EGFP gene:
The structure of cDNA uses the full-length gene group cDNA of M defective type SeV (it is M gene defection type (pSeV18+/Δ M:WO 00/09700)).Constructing plan as shown in figure 17.BstEII fragment (2098bp) subclone of M defect sites that comprises pSeV18+/Δ M is to the BstEII site of pSE280 (pSE-BstEIIfrg structure).The EcoRV recognition site in pSE280 site lack by connecting subsequently with SalI/XhoI digestion (Invitrogen, Groningen, Netherlands).Comprise the GFP gene pEGFP (TOYOBO, Osaka, Japan) with Acc65I and EcoRI digestion, and digest 5 '-terminal by use DNA brachymemma test kit (Takara, Kyoto, Japan) form flat terminal.Subclone is in pSE-BstEIIfrg subsequently for flat terminal fragment, and (TOYOBO, Osaka Japan) handle by EcoRV digestion and by BAP for they.The described BstEII fragment that comprises the EGFP gene is returned initial pSeV18+/Δ M comprises the EGFP gene that is positioned at the M defect sites with structure M gene defection type SeV genome cDNA (pSeV18+/Δ M-GFP).
[embodiment 10] make up the cDNA of the SeV of genome M genetic flaw and replication defective:
Make up the genome cDNA of M gene defection type and F gene defection type SeV.Following constructing plan as shown in figure 18.The M gene lacks with pBlueNaeIfrg-Δ FGFP, it can be by NaeI fragment (the 4922bp) (pSeV18+/Δ F-GFP:Li with F defective type Sendai virus full-length gene group cDNA (it comprises the EGFP gene that is positioned at F genetic flaw site), H.-O. etc., J.Virology 74,6564-6569,2000; WO 00/70070) subclone is to pBluescript II (Stratagene, La Jolla, EcoRV site CA) and making up.The design of disappearance makes and can utilize the ApaLI site that is right after after the M gene directly to cut the M gene.That is, after the ApaLI recognition site inserts the P gene, make that fragment to be excised becomes 6n, QuikChange is used in mutagenesis
TMThe site-directed mutagenesis test kit (CA) carry out according to test kit for Stratagene, LaJolla by explanation.The sequence synthetic oligonucleotide that is used for mutagenesis is as follows:
5 '-agagtcactgaccaactagatcgtgcacgaggcatcctaccatcctca-3 '/SEQ ID NO:24 and
5’-tgaggatggtaggatgcctcgtgcacgatctagttggtcagtgactct-3’/SEQ?ID?NO:25.
After the mutagenesis, the sudden change cDNA of generation digests with ApaLI (at 37 ℃, 5 minutes) part, and (QIAGEN, Bothell WA) reclaim, and connect then to use QIAquick PCR purification kit.Reclaim with QIAquick PCR purification kit once more,, and be used to transform H5 (with the F genetic flaw) DNA (pBlueNaeIfrg-Δ M Δ FGFP) with preparation M genetic flaw with BsmI and StuI digestion.
The pBlueNaeIfrg-Δ M Δ FGFP (with the F gene) of M genetic flaw comprises the 1480bp fragment in M genetic flaw site with recovery with SalI and ApaLI digestion.PSeV18+/Δ F-GFP contains the fragment (6287bp) of HN gene with recovery with ApaLI/NheI digestion, and these two fragments are cloned into Litmus 38 (New Engl and Biolabs, Beverly, SalI/NheI site MA) (LitmusSalI/NheIfrg-Δ M Δ FGFP structure).Be connected with the fragment (8294bp) that SalI/NheI digests pSeV18+/Δ F-GFP gained with another by the 7767bp fragment that reclaims with SalI/NheI digestion LitmusSalI/NheIfrg-Δ M Δ FGFP, back one fragment does not comprise gene for example M and HN gene.Thus, made up M defective type and the F defective type Sendai virus full-length gene group cDNA that comprises the EGFP gene in defect sites (pSeV18+/Δ M Δ F-GFP).The structure of M defective type (with M defective type and the F defective type) virus that so makes up as shown in figure 19.This genome cDNA can be used for structure and comprises required modification back proteic M defective type of F and F defective type SeV.
The proteic helper of SeV-M is expressed in [embodiment 11] preparation
Express the proteic helper of M for preparation, use Cre/loxP induced expression system.For making up this system, use plasmid pCALNdLw, it is designed to induce use Cre DNA recombinase expressing gene product (Arai, T. etc., J.Virol.72,1115-1121,1988).This system also is used to prepare the proteic helper of F (LLC-MK2/F7 cell), and (J.Virology 74 for Li, H.-O. etc., 6564-6569,2000; WO 00/70070).
<1〉structure of the plasmid of expression M gene:
Induce the helper of F and M protein expression for preparation, use above-mentioned LLC-MK2/F7 cell utilize said system with the M transgenosis to these cells.Because pCALNdLw/F is used to shift the neomycin resistance gene that contains the F gene, it is necessary for inserting different drug resistance genes so that can use identical cell.Therefore, according to the described scheme of Figure 20, the neomycin resistance gene that comprises the plasmid (the pCALNdLw/M:M gene inserts the SwaI site of pCALNdLw) of M gene replaces with hygromycin gene.That is, behind HincII and EcoT22I digestion pCALNdLw/M, the fragment (4737bp) that contains the M gene is by carrying out electrophoretic separation on agarose, and with the excision of QIAEXII Gel extraction system and reclaim accordingly and be with.Simultaneously,, further digest to reclaim the fragment of 1779bp with HincII then to reclaim the fragment (5941bp) that does not comprise neomycin resistance gene with XhoI digestion pCALNdLw/M.By use pcDNA3.1hygro (+) (Invitrogen, Groningen Netherlands) prepare hygromycin gene as template and following primer to carrying out PCR:
Hygro-5 ' (5 '-tctcgagtcgctcggtacgatgaaaaagcctgaactcaccgcgacgtctgtcgag-3 '/SEQ ID NO:26) and
hygro-3’(5’-aatgcatgatcagtaaattacaatgaacatcgaaccccagagtcccgcctattcctttgccctcggacgagtgctggggcgtc-3’)/SEQ?ID?NO:27).
The PCR product uses QIAquick PCR purification kit to reclaim, and uses XhoI and EcoT22I digestion.Make up pCALNdLw-hygroM by connecting these three fragments.
<2〉clone induces the helper of SeV-M and SeV-F protein expression:
Use the Superfect transfection reagent to carry out transfection by the description of product.Particularly, carry out following steps: the LLC-MK2/F7 cell is with 5 * 10
5Cell/ware is layered in the Petri ware of diameter 60mm, and cultivates 24 hours in containing the D-MEM of 10%FBS subsequently.PCALNdLw-hygroM (5 μ g) is dilution in not containing the D-MEM (totally 150 μ L) that FBS do not contain antibody yet.Stir the mixture, and add the Superfect transfection reagent of 30 μ L, and stir the mixture once more.After room temperature is placed 10 minutes, add the D-MEM (1ml) that contains 10%FBS.Stir the transfection mixture of preparation thus, and add with PBS washing LLC-MK2/F7 cell once.In incubator at 37 ℃ and 5%CO
2Cultivate in the atmosphere after 3 hours, remove transfection mixture, and with PBS washed cell three times.The D-MEM adding that contains 10%FBS has been cultivated in 24 hour cells.After the cultivation, cell dissociates with trypsinase, be laid on 96 orifice plates with the extent of dilution of about 5 cells/well, and (Gibco-BRL, Rockville cultivates about two weeks in MD) containing the D-MEM of 10%FBS (replenishing 150 μ g/ml Totomycin).Cultivation makes it increase at 6 orifice plates from the clone of unicellular propagation.Prepare 130 clones altogether, and following concrete analysis.
<3〉analyze the helper clone who induces one or more SeV-M (and SeV-F) protein expression:
With the proteic expression of M among 130 clones of Western trace semi-quantitative analysis such as above-mentioned acquisition.Each clone is laid on 6 orifice plates, and near attitude of the full end time, according to (Saito, I. etc., Nucleic Acids Res.23,3816-3821,1995 such as Saito; Arai, T. etc., J.Virol.72,1115-1121,1998) method, infect with MOI=5 with the recombinant adenovirus (being diluted among the MEM that contains 5%FBS) of expressing Cre DNA recombinase (AxCANCre).32 ℃ of cultivations two days later, remove the culture supernatant.Use the PBS washed cell once, and by using the cell curette to separate.Carry out SDS-PAGE by 1/10 application of sample that will so reclaim cell in each swimming lane, use anti-M protein antibodies to carry out the Western trace then according to embodiment 3 and 4 described methods.In 130 clones, those clones of high relatively M protein expression level analyze with anti-F protein antibodies (f236:Segawa, H. etc., J.Biochem.123,1064-1072,1998) by the Western trace.Two results are presented among Figure 21.
The helper of the proteic expression of SeV-M is induced in [embodiment 12] assessment:
The helper of inducing the proteic expression of SeV-M that use is cloned in embodiment 11, the virus generation ability of these cell clones is estimated in the viral reconstruct of carrying out M defective type SeV (SeV18+/Δ M-GFP).The P0 lysate of SeV18+/Δ M-GFP is added among each clone, and checked whether GFP albumen diffusion (no matter whether proteic trans the providing of M (trans-supply) realizes) is provided.Be prepared as follows the P0 lysate.With the LLC-MK2 cell with 5 * 10
6Cell/ware is laid on the Petri ware of diameter 100mm 5 * 10
6Cell/ware was cultivated 24 hours and and was infected 1 hour in room temperature with PLWUV-VacT7 with MOI=2 subsequently.Plasmid pSeV18+/Δ M-GFP, pGEM/NP, pGEM/P, pGEM/L, pGEM/F-HN and pGEM/M be respectively with 12 μ g, 4 μ g, and 2 μ g, 4 μ g, the weight ratio of 4 μ g and 4 μ g/ wares is suspended among the Opti-MEM.The SuperFect transfection reagent that will be equivalent to 1 μ g DNA/5 μ L adds these suspensions and mixing.Described mixture was placed 15 minutes in room temperature, and added 3ml at last and contain among the Opti-MEM of 3%FBS.Mixture is added cell, and cultivate described cell subsequently.Cultivate after 5 hours, described cell serum-free MEM washed twice, and in containing 40 μ g/ml AraC and the tryptic MEM of 7.5 μ g/ml, cultivate.Cultivate after 24 hours, with the LLC-MK2/F7/A cell with 8.5 * 10
6Cell/ware is laid in the ware, and further cultivates two days (P0) at 37 ℃ in containing 40 μ g/ml AraC and the tryptic MEM of 7.5 μ g/ml.Reclaim these cells, and precipitation is resuspended in 2ml/ ware Opti-MEM and P0 lysate, and freezing and thaw cycles prepares by triplicate.Simultaneously, 10 different clones are laid on 24 orifice plates.When near the full end, they infect with MOI=5 with AxCANCre, and 32 ℃ of cultivations two days.These cells carry out transfection with the P0 lysate of SeV18+/Δ M-GFP with 200 μ L/ holes, and use and to contain 40 μ g/ml AraC and the tryptic serum-free MEM of 7.5 μ g/ml 32 ℃ of cultivations.Observe by proteic being diffused among clone #18 and the #62 (Figure 36) of the GFP that SeV18+/Δ M-GFP causes.Described to be diffused in the clone fast especially among the #62, and described clone is used for experiment subsequently.After this, these cells are called LLC-MK2/F7/M62 before inducing with AxCANCre.After the insulation, continuous expression F and M albumen are called LLC-MK2/F7/M62/A.Continue with LLC-MK2/F7/M62/A cell preparation SeV18+/Δ M-GFP cell.P2 infected back 6 days, preparation 9.5 * 10
7The virus of GFP-CIU.P4 infected back 5 days, preparation 3.7 * 10
7The virus of GFP-CIU.
Shown in embodiment 3, infer P1 after the stage in 32 ℃ of cultivations for reclaiming SeV18+/Δ M-GFP virus particularly important.In SeV18+/Δ M-GFP, M albumen is considered to a reason from the trans supply of express cell (LLC-MK2/F7/M62/A); Yet the diffusion of infection is extremely slow, and infects at P1 at last and observed (Figure 22) in back 7 days.Therefore, in viral reconstitution experiments, " P1 after the stage 32 ℃ of cultivations " by its reconstruct poor efficiency transcribe-duplicate or the low SeV that forms the infectious viral particle ability in very effective and supported.
[embodiment 13] are used and are induced the helper of SeV-M protein expression to study viral preparation condition:
Studied the reproductivity of above-mentioned virus.Be laid on the LLC-MK2/F7/M62/A cell on 6 orifice plates and 37 ℃ of cultivations.When cell during, temperature is become 32 ℃ near the full end.After one day, these cells infect with SeV18+/Δ M-GFP with MOI=0.5.The culture supernatant reclaims in time, and replaces with fresh culture.The supernatant of Hui Shouing is used to measure CIU and HAU thus.Most of viruses are recovery (Figure 23) in 4-6 days after infection.HAU kept after the infection more than 6 days, but still showed strongly at this time point cytotoxic activity, showed that reason is not the HA albumen from virion, but free or with the proteic activity of cell debris bonded HA.Therefore for gathering virus, the preferably recovery in the 5th day after infection of culture supernatant.
The structural confirmation of [embodiment 14] M genetic flaw SeV:
The virogene of SeV18+/Δ M-GFP ' is confirmed by PCR, and viral protein is confirmed by the Western trace.In RT-PCR, use and infect back 6 days P2 stage virus.(QIAGEN, Bothell WA) are used for reclaiming RNA from viral solution the pocket test kit of QIAamp viral RNA.(Gibco-BRL, Rockville MD) are used to prepare described cDNA in Thermoscript RT-PCR system.The method that these two kinds of systems all press in the test kit explanation is used.The sexamer at random that this test kit provides is as the primer of cDNA preparation.For confirming that described product begins to form from RNA, under existing or lack, ThermoScript II carries out RT-PCR.Use the cDNA of above-mentioned preparation to carry out PCR as template, use two pairs of primers: a kind of composition of the R4993 on F3593 on the P gene (5 '-ccaatctaccatcagcatcagc-3 '/SEQ ID NO:28) and the F gene (5 '-ttcccttcatcgactatgacc-3 '/SEQ ID NO:29), and another composition of F3208 on the P gene (5 '-agagaacaagactaaggctacc-3 '/SEQ ID NO:30) and R4993.As the gene structure expection from SeV18+/Δ M-GFP, the amplification of 1073bp and 1458bp DNA is observed (Figure 24) from last composition and back one composition respectively.When ThermoScript II during by default (RT-), gene amplification does not occur.When inserting M gene rather than GFP gene (pSeV18+GFP), the DNA of increase respectively 1400bp and 1785bp.These DNA are obviously different with above-mentioned those size, supported should virus this fact of M genetic flaw structurally the time.
Albumen confirms to use the Western trace to carry out.The LLC-MK2 cell is used SeV18+/Δ M-GFP (being shown as Δ M among the figure) respectively, SeV18+/Δ F-GFP (being shown as F among the figure), and SeV18+GFP (being shown as 18+ among the figure) infects with MOI=3, and reclaimed cleer and peaceful cell on the culture in back 3 days in infection.The culture supernatant is 48, and centrifugal 45 minutes of 000xg is to reclaim viral protein.Behind the SDS-PAGE, carry out the Western trace with anti-M protein antibodies, anti-F protein antibodies and DN-1 antibody (rabbit polyclonal) (it mainly detects NP albumen) detect albumen according to the method in embodiment 3 and 4.In the cell that infects with SeV18+/Δ M-GFP, do not detect M albumen and observe F and/or NP albumen.Therefore, this virus also confirms to have SeV18+/Δ M-GFP structure (Figure 25) from the albumen angle.In the cell that infects with SeV18+/Δ F-GFP, do not observe F albumen, but the viral protein of all detections detects in the cell that infects with SeV18+GFP all.In addition, considerably less NP albumen detects in the culture supernatant of the cell that infects with SeV18+/Δ M-GFP, and showing does not have or by few secondary release particles.
There is or lacks the quantitative analysis of the secondary release particles of M gene defection type SeV in [embodiment 15]:
As described in embodiment 14, the LLK-MK2 cell infects with MOI=3 with SeV18+/Δ M-GFP, and reclaims the culture supernatant back three days of infection, and the filter by aperture 0.45 μ M filters, and subsequently 48, and centrifugal 45 minutes of 000xg is to reclaim viral protein.Use the viral protein in the Western trace sxemiquantitative ground detection culture supernatant subsequently.The sample for preparing similarly from the cell that SeV18+/Δ F-GFP infects is with comparing.Prepare the serial dilution thing of each sample and it is carried out the Western trace to use DN-1 antibody (mainly discerning NP albumen) detection albumen.Viral protein horizontal estimated in the culture supernatant of the cell that SeV18+/Δ M-GFP infects is about 1/100 (Figure 26) of the cell of SeV18+/Δ F-GFP infection.The sample HA activity of SeV18+/Δ F-GFP is 64HAU, than the active low 2HAU of the sample HA of SeV18+/Δ M-GFP.
Checked the time course of identical experiment.That is, the LLC-MK2 cell infects with MOI=3 with SeV18+/Δ M-GFP, and in time (every day) reclaim the culture supernatant to measure HA activity (Figure 27).Infect afterwards more than four days, detect small amount of H A activity.Yet, infecting in the cell of back SeV18+/Δ M-GFP-infection more than 4 days or 4 days, the mensuration of LDH activity (cytotoxic activity indicator) shows tangible cytotoxic activity (Figure 28).This shows that the very possible HA activity that raises is not owing to VLP, but owing to combines or the proteic activity of free HA with cell debris.In addition, infect and obtained the culture supernatant in back 5 days and use Dosper lipofectamine (cationic-liposome) (Roche, Basel Switzerland) test.Culture supernatant (100 μ L) mixes with Dosper (12.5 μ L), places ten minutes in room temperature, and transfection is to the LLC-MK2 cell of cultivating the full end on 6 orifice plates then.The observation under fluorescent microscope in two days is presented in the cell conditioned medium (it contains the secondary release particles) that infects with SeV18+/Δ F-GFP and observes many GFP positive cells after the transfection, and observes considerably less in the cell conditioned medium that SeV18+/Δ M-GFP infects or almost do not have GFP-positive cell (Figure 29).From The above results as seen, particulate secondary release inference is almost completely suppressed by M albumen defective.
2. make up the SeV carrier that has reduction or defect particles formation ability owing to the protease-dependent tropism of modifying
Utilize the reconfiguration system of the M defective type SeV of above-mentioned structure, as the following structure adorned SeV of F albumen cleavage site wherein.
[embodiment 16] make up the M defective type SeV genome cDNA in the F protein activation site with modification:
Make up the M defective type SeV genome cDNA that inserts F albumen F1/F2 cleavage site (activation site), it has the recognition sequence at cancer cells camber expressed proteins enzyme.Structure is based on the various sequences as the sequence of the synthetic substrate of MMP-2 and MMP-9, and based on the sequence of uPA substrate.Figure 30 shows 4 kinds of sequences: two kinds based on the sequence (Netzel-Arnett that designs as the sequence of the synthetic substrate of MMP-2 and MMP-9, S. etc., Anal.Biochem.195,86-92,1991), it has or does not have modification [PLG ↓ MTS (SEQ ID NO:3) and PLG ↓ LGL (SEQ ID NO:31); Hereinafter, the F albumen that comprises these sequences is called F (MMP#2) and F (MMP#3)]; Another sequence designs (the F albumen that hereinafter, has this sequence is called F (MMP#4)) by only inserting 3 amino acid whose sequence PLG (itself and the synthetic substrate common (common) of MMP); And based on the uPA substrate, the sequence of VGR (SEQ ID NO:6) design, (hereinafter, the F albumen that comprises this sequence is called F (uPA)).
For the sequence that is designed at present to realize to the selectively acting of purpose MMPs (MMP-2 and MMP-9), the sequence of the synthetic substrate that can buy, and to the report (Turk that studies in great detail of substrate specificity, B.E. etc., Nature Biotech.19 (7), 661-667,2001; Chen, E.I. etc., J.Biol.Chem.277 (6), 4485-4491,2002) can be used as reference.Especially for MMP-9, recommend consensus sequence, Pro-X-X-Hy-(Ser/Thr) (any residue of X=from P3-P2 '; The Hy=hydrophobic residue) (Kridel, S.J. etc., J.Biol.Chem.276 (23), 20572-20578,2001).Therefore, F (MMP#2) newly is designed to present design, PLG ↓ MTS, and from the sequence of initial synthetic substrate, PLG ↓ MWS makes itself and consensus sequence be complementary.
Gene constructed scheme is shown in Figure 31.The full-length gene group cDNA of the M defect sites of M defective type Sendai virus (pSeV18+/Δ M-GFP) (wherein the EGFP gene is inserted into the M defect sites) is with SalI and NheI digestion.The fragment (9634bp) that comprises the F gene is by sepharose and electrophoretic separation, and (QIAGEN, Bothell WA) cut out corresponding band and gathering in the crops to use QIAEXII gel extraction system subsequently.(New Engl and Biolabs, Beverly is MA) in the SalI/NheI site of (structure of LitmusSalI/NheIfrg Δ M-GFP) to LITMUS38 for the fragment subclone that obtains.The mutagenesis of F gene on this LitmusSalI/NheIfrg Δ M-GFP, is used QuickChange
TM(Stratagene, La Jolla CA) carry out according to the method for test kit explanation the site-directed mutagenesis test kit.The sequence of synthetic oligonucleotide that is used for mutagenesis is as follows:
5’-CTGTCACCAATGATACGACACAAAATGCCccTctTggCatGaCGAGtTTCTTCGGTGCTGTGATTGGTACTATC-3’(SEQ?ID?NO:32)
With
5 '-GATAGTACCAATCACAGCACCGAAGAAaCTCGtCatGccAagAggGGCATTTTGTG TCGTATCATTGGTGACAG-3 ' (SEQ ID NO:33) is used to change into F (MMP#2);
5’-CTGTCACCAATGATACGACACAAAATGCCccTctTggCCtGggGttATTCTTCGGTGCTGTGATTGGTACTATCG-3’(SEQ?ID?NO:34)
With
5 '-CGATAGTACCAATCACAGCACCGAAGAATaaCccCaGGccAagAggGGCATTTTGT GTCGTATCATTGGTGACAG-3 ' (SEQ ID NO:35) is used to change into F (MMP#3);
5 '-CAAAATGCCGGTGCTCCCCcGTtGgGATTCTTCGGTGCTGTGATT-3 ' (SEQ ID NO:36) and
5 '-AATCACAGCACCGAAGAATCcCaACgGGGGAGCACCGGCATTTTG-3 ' (SEQ ID NO:37) is used to change into F (MMP#4);
With
5’-GACACAAAATGCCGGTGCTCCCgtGggGAGATTCTTCGGTGCTGTGATTG-3’(SEQ?ID?NO:38)
With
5 '-CAATCACAGCACCGAAGAATCTCccCacGGGAGCACCGGCATTTTGTGTC-3 ' (SEQ ID NO:39) is used to change into F (uPA).
Lowercase is represented the Nucleotide that suddenlys change.
The LitmusSalI/NheIfrg Δ M-GFP that comprises the targeted mutagenesis that is positioned on the F gene digests with SalI/NheI, collects the fragment (9634bp) that comprises the F gene.The F defective type Sendai virus (pSeV18+/Δ F-GFP:Li, H.-O. etc., J.Virol.74,6564-6569,2000 that comprise the EGFP gene that is positioned at the F defect sites; WO 00/70070) comprise the fragment (8294bp) of NP gene with SalI and NheI digestion with collection, and use synthetic few DNA that multiple clone site is imported described fragment to obtain plasmid (pSeV/SalINheIfrg-MCS:PCT/JP00/06051).The gained plasmid digests to collect fragment (8294bp) with SalI and NheI.The fragment of collecting is interconnection to make up M defective type SeV cDNA (pSeV18+/F (MMP#2) Δ M-GFP, pSeV18+/F (MMP#3) Δ M-GFP, or pSeV18+/F (MMP#4) Δ M-GFP, it comprises F (MMP#2), F (MMP#3) or F (MMP#4) gene (being designed to gene) by MMP activatory F, with M defective type SeV cDNA (pSeV18+/F (uPA) Δ M-GFP), it comprises F (uPA) gene (being designed to the gene by uPA activatory F).
[embodiment 17] have the reconstruct and the amplification of M defective type SeV carrier in the F activation site of modification:
The reconstruct of virus is according to (Li, H.-O. etc., J.Virol.74,6564-6569,2000 such as Li; WO00/70070) method of reporting is carried out.Because virus is the form of M defective, and the trans proteic above-mentioned helper of M (in embodiment 11) that provides is provided.Cre/loxP induced expression system is used for the preparation of helper.System's utilization of the described pCALNdLw of utilization plasmid is designed to utilize Cre DNA recombinase induced gene product to express (Arai, T. etc., J.Virol.72,1115-1121,1988).Therefore, use (Saito, I. etc., Nucleic Acids Res.23,3816-3821,1995 such as Saito; Arai, T. etc., J.Virol.72,1115-1121,1998) method, the transformant that infects this plasmid with the recombinant adenovirus (AxCANCre) of expressing Cre DNA recombinase is to express the gene (seeing embodiment 11 and 12) that inserts.
Following the carrying out of reconstruct of the activation site adorned M defective SeV of F wherein.The LLC-MK2 cell is with 5 * 10
6Cell/ware is laid in the ware of 100-mm, and is incubated 24 hours.Express the vaccinia virus recombinant (PLWUV-VacT7:Fuerst of T7 polysaccharase, T.R. etc., Proc.Natl.Acad.Sci.USA 83,8122-8126,1986) handled 20 minutes with Psoralen (365nm) under ultraviolet A irradiation, and infected (MOI=2) cell one hour in room temperature.Described cell washs with serum-free MEM.PSeV18+/F (MMP#2) Δ M-GFP (is chosen as pSeV18+/F (MMP#3) Δ M-GFP, pSeV18+/F (MMP#4) Δ M-GFP, or pSeV18+/F (uPA) Δ M-GFP), pGEM/NP, pGEM/P, pGEM/L (Kato, A. etc., Genes Cells 1,569-579,1996), and pGEM/F-HN (Li, H.-O. etc., J.Virology 74,6564-6569,2000; WO 00/70070) plasmid is with 12 μ g, 4 μ g, 2 μ g, the density of 4 μ g and 4 μ g/ wares be suspended from respectively Opti-MEM (Gibco-BRL, Rockville, MD) in.(Qiagen, Bothell WA) add in each solution the SuperFect transfection reagent of corresponding 5 μ L/1 μ g DNA, mix, and place 15 minutes in room temperature subsequently.At last, described mixture adds among the Opti-MEM that contains PBS of 3mL with 3% final concentration, and adds subsequently and be used in the cell cultivating.Cultivate after 5 hours, described cell serum-free MEM washed twice, and containing and 40 μ g/mL cytidylic acid β-D-arbinofuranose glycosides (AraC:Sigma, St.Louis, MO) and 7.5 μ g/mL trypsin Gibco-BRL, Rockville cultivates among MEM MD).Cultivate after 24 hours, the proteic cell of continuous expression M (LLC-MK2/F7/M62/A) is with 8.5 * 10
6The density growth stratification of cell/ware, and in containing 40 μ g/mL AraC and the tryptic MEM of 7.5 μ g/mL, cultivate two days (P0) again at 37 ℃.Collect these cells, and precipitation is suspended among the Opti-MEM of 2mL/ ware.After the triplicate freeze thawing, described lysate direct transfection and contains 40 μ g/mL AraC at 32 ℃ in LLC-MK2/F7/M62/A, and (ICN, Aurola OH) cultivate in (P1) the serum-free MEM of 7.5 μ g/mL trypsinase and 50U/mL IV Collagen Type VI enzyme.After 3-14 days, take out part culture supernatant and transfection in the LLC-MK2/F7/A of firm preparation, and contain 40 μ g/mL AraC, cultivate among the serum-free MEM of 7.5 μ g/mL trypsinase and 50U/mL IV Collagen Type VI enzyme (P2) at 32 ℃.After 3-14 days, with culture once more transfection and in 32 ℃ of serum-free MEM that contain 7.5 μ g/mL trypsinase and 50U/mL IV Collagen Type VI enzyme (P3), cultivated 2-7 days to the just LLC-MK2/F7/M62/A of preparation.Make that final concentration is 1% in the culture supernatant with BSA adding collection, and culture is kept at-80 ℃.The virus strain of thawing solution is used for preparation and experiment in vitro subsequently.
In addition, can produce the helper (LLC-MK2/F7/M62-#33) of M defective type SeV carrier by SeV-M gene (with the SeV-F gene) (pCALNdLw:Arai with high titre with same system, T. etc., J.Virol.72,1115-1121,1988) importing LLC-MK2/F7/M62 successfully obtains as helper (it is trans to provide M albumen, and continues the clone of cell).Use these cells, wherein the F gene do not have the sudden change M defective type SeV carrier (SeV18+/Δ M-GFP) can be with 1 * 10
8GFP-CIU/mL (GFP-CIU is defined among the WO 00/70070) or higher titre produce.In addition, use these cells to realize that also SeV18+/F (MMP#2) Δ M-GFP and SeV18+/F (uPA) Δ M-GFP are with 1 * 10
8The preparation of GFP-CIU/mL or higher titre.
When SeV18+/F (MMP#3) Δ M-GFP and SeV18+/F (MMP#4) Δ M-GFP are reconstructed similarly, can not collect virion.For collecting these virions, reconstruction condition is check further.Consider the fact that they can not be collected under the same conditions, the F1/F2 cleavage site among F (MMP#3) and the F (MMP#4) (the proteic activation of F site) has problem, its for example cause after low cutting efficiency or the cutting the proteic activity of F a little less than.
[embodiment 18] prepare the vivo sample of the M defective type SeV carrier in the F activation site with modification:
The various M defective type SeV carriers that are used for experiment in the body are by simple purifying preparation, and wherein virion precipitates by centrifugal.LLC-MK2/F7/M62-#33 is long on 6 orifice plates to be infected with AxCANCre (MOI=5) to almost expiring the end, and cultivates two days at 32 ℃ subsequently.These cells infect with MOI=0.5 with SeV18+/F (MMP#2) Δ M-GFP or SeV18+/Δ M-GFP.Subsequently, at 32 ℃, will in the serum-free MEM (1mL/ hole) that contains 7.5 μ g/mL trypsinase and 50U/mL IV Collagen Type VI enzyme, cultivate 3 days with the cell that SeV18+/F (MMP#2) Δ M-GFP infects; And the cell that SeV18+/Δ M-GFP infects cultivated 3 days in only containing the tryptic serum-free MEM of 7.5 μ g/mL (1mL/ hole).In six holes, collect supernatant, and mix, then 2, centrifugal 15 minutes of 190xg.The supernatant of collecting is by filter (its hole internal diameter is 0.45 μ M), and subsequently further 40, centrifugal 30 minutes of 000xg.The precipitation that produces is suspended from the viral solution of preparation purifying among the PBS of 500 μ L.Titre as the M defective type SeV carrier of above-mentioned preparation is 1.3 * 10
9With 4.5 * 10
9GFP-CIU/mL (corresponding SeV18+/F (MMP#2) Δ M-GFP and SeV18+/Δ M-GFP respectively).F albumen among the cutting embodiment 17 and 18 in the virus of preparation, and described virus has infectivity.This SeV is called the SeV or the infectious SeV of F-cutting.Hereinafter, SeV18+/Δ M-GFP, SeV18+/F (MMP#2) Δ M-GFP, and SeV18+/F (uPA) Δ M-GFP also is reduced to SeV/ Δ M-GFP respectively, SeV/F (MMP#2) Δ M-GFP, and SeV/F (uPA) Δ M-GFP.
The cytogamy type that infection that [embodiment 19] evaluating protein enzyme relies on and F modify M defective type SeV carrier infects:
<1〉exogenous experiment:
The infection method that wherein extracellular protease is added clone is called exogenous experiment.The basic step of the exogenous experiment of carrying out in following examples is as described below.The use of different condition is described in each embodiment.LLC-MK2 cultivates and is paved with 96 orifice plates (5 * 10
5Cells/well).After the MEM washed twice, will contain the SeV (form of F-cutting: 1 * 10
5CIU/mL, or the uncut form of F-: 1 * 10
7Particle/mL (is expressed as HA unit; See embodiment 25)] 50 μ L MEM add and cells infected.Simultaneously, also add the 50 μ L proteolytic enzyme that contain MEM, and at 37 ℃ of culturing cells.After four days, under fluorescent microscope, observe the diffusion of infection.Counting 1mm
2Express the cell count of GPF in the interior cell.With the proteolytic enzyme that uses available from ICN Biomedicals Inc.for collagenase (IV Collagen Type VI enzyme), and MMP-2 (active MMP-2), MMP-3, MMP-7, MMP-9 (active MMP-9) and Tryptase are available from COSMO BIO Co.ltd.
<2〉endogenous experiment:
The infection method that does not add extracellular protease by the proteolytic enzyme of cell inner expression is called the endogenous experiment.The basic step of the endogenous experiment of carrying out in following examples is described below.The use of different condition is described in each embodiment.Various cancer cells are cultivated and are paved with 96 orifice plates (5 * 10
5Cells/well).After the MEM washed twice, will contain the SeV (form of F-cutting: 1 * 10
5CIU/mL, or the uncut form of F-: 1 * 10
7Particle/mL (is expressed as HA unit; See embodiment 25)) 50 μ L MEM add and cells infected.Simultaneously, also add the 50 μ L proteolytic enzyme that contain MEM, and at 37 ℃ of culturing cells.After four days, under fluorescent microscope, observe the diffusion of infection.Counting 1mm
2Express the cell count of GPF in the interior cell.
[embodiment 20] infect (exogenous experiment) by the cytogamy type of the proteolytic enzyme dependence of the M defective type sendai virus vector of F modification:
Use the LLC-MK2 cell of expressing protein enzyme hardly, confirm the modification of F, and measure, thereby determine that the cytogamy type whether it causes proteolytic enzyme to rely on infects (Figure 32) by above-mentioned exogenous experiment.With three kind M defective type SeV (as described in embodiment 17), SeV/ Δ M-GFP, SeV/F (MMP#2) Δ M-GFP, and SeV/F (uPA) Δ M-GFP, cells infected.Simultaneously, with the various IV Collagen Type VI enzymes (clostridium histolyticum (Clostridium histolyticum)) of 0.1 μ g/mL, active MMP-2, active MMP-9, or uPA, or 7.5 μ g/mL trypsinase add wherein.After four days, observation of cell under fluorescent microscope.Only in adding tryptic LLC-MK2, the SeV/ Δ M-GFP with unmodified F causes the fusion of cells infected and its peripheral cell, causes the cytogamy type to infect and syncyte (synplasm) formation (Figure 32 L).SeV/F (MMP#2) the Δ M-GFP that inserts MMP degraded sequence in its F albumen shows that the cytogamy type of LLC-MK2 infects (wherein having added collagenase, active MMP-2 and active MMP-9), causes synplasm to form (Figure 32 E, 32F, and 32M).On the other hand, SeV/F (uPA) the Δ M-GFP that has inserted urokinase type plasminogen activator (uPA) and tissue-type PA (tPA) degraded sequence in its F albumen has shown that under trypsinase exists the cytogamy type infects, and when F albumen is further modified, when having uPA, show synplasm, coenocytic formation (Figure 32 Q and 32R).These results show, because various proteasome degradation substrate sequences are mixed F albumen, M defective type SeV causes the cytogamy type infection of substrate dependence of degrading, and are diffused into the cell of contact.
The MMP expression specificity cytogamy type of [embodiment 21] cancerous cell line infects (endogenous experiment):
Use the SeV of preparation among the embodiment 17, carry out the endogenous experiment and whether exist endogenous proteinase selecting cell pattern of fusion to infect to measure.Use the cancerous cell line of expressing MMP, HT1080 (people's fibroblastic sarcoma) (Morodomi, T. etc., Biochem.J.285 (Pt 2), 603-611,1992), express the clone of tPA, MKN28 (SGC-7901) (Koshikawa, N. etc., Cancer Res.52,5046-5053,1992) and not express the clone of arbitrary proteolytic enzyme, SW620 (CCL188).MKN28 derives from Riken Institute of Physical and Chemical Research (Cell No.RCB1000), and be used for the HT1080 (ATCC No.CCL-121) and the SW620 (ATCC No.CCL-227) of following examples, and SW480 (ATCC No.CCL-228), WiDr (ATCC No.CCL-218), and Panc-1 (ATCC No.CRL-1469) derives from American type culture collection (ATCC).Provide the used substratum of different institutes of cell to be used for experiment.In addition, FBS is added in all substratum with 1% final concentration.As shown in figure 33, in the clone of expressing MMP, among the HT1080, have only with the infection of SeV/F (MMP#2) Δ M-GFP and spread 10 times or more.In addition, in the clone of expressing tPA, among the MKN28, have only cytogamy type to infect diffusion with SeV/F (uPA) Δ M-GFP.In the SW620 that does not express arbitrary proteolytic enzyme, do not observe the diffusion of infection at all.
[embodiment 22] are infected by the cytogamy type that phorbol ester inductive MMP causes:
It is reported that the somatomedin around the cancer cells can be induced MMP in vivo in cancer cells.This phenomenon can be used phorbol ester, and promptly phorbol 12-myristinate 13-acetate (PMA) is at replication in vitro.For working out the infection under the present copy condition (wherein MMP expresses and induced), PancI, known by PMA activation MMP-2 and induce the pancreatic cancer cell system of MMP-9, be used for the existence or the disappearance (Zervos that infect by the M defective type SeV carrier check cytogamy type that F modifies, E.E. etc., J.Surg.Res.84,162-167,1999).PancI and other cancerous cell line were cultivated in 96 holes up to the full end (5 * 10
5Cells/well).Described endogenous experiment is carried out with the SeV of preparation among the embodiment 7.After the MEM washed twice, 50 μ L are contained 1 * 10
5The MEM adding of CIU/mL SeV is used for infecting (MOI=0.01).(the 50 μ L) MEM that adds same amount (contains 40nM phorbol 12-myristinate 13-acetate (Sigma).Simultaneously, FBS being added substratum, to make its final concentration be 1%.
The inductive of MMP-2 and MMP-9 is expressed by gel zymography method (wherein existing the part of gel hydrolytic activity to become clear) and is confirmed (Johansson, S., and Smedsrod, B., J.Biol.Chem.261,4363-4366,1986).Particularly, collect the supernatant of every kind of culture and being dissolved in the sample buffer.Described mixture mixes with third rare acid amides, and to make the gel final concentration be 1mg/mL to prepare 8% acrylamide gel.Behind the sds polyacrylamide gel electrophoresis, described gel uses 10mM Tris (pH 8.0) and 2.5%Triton X-100 37 ℃ of detergent gel, at gelatinase activation damping fluid (50mM Tris, 0.5mM CaCl
2, 10
-6M ZnCl
2) in insulation one day and with 1% Coomassie blue R-250,5% acetic acid and 10% methyl alcohol dye (first half of Figure 34)." C " represents contrast, and " T " representative is by 20nM PMA inductive sample supernatant.Described figure top shows that MMP-9 induces in HT1080 and Panc I.Detect potential MMP-2 before in Panc I, inducing.Yet this potential form is known to have the gel quav hydrolytic activity hardly.Induce indicator cells pattern of fusion to infect with the Panc I that SeV/F (MMP#2) Δ M-GFP infects by MMP as Figure 34 (Lower Half).
The infection of [embodiment 23] SeV/F (MMP#2) Δ M-GFP is the diffusion in the HT1080 clone in vivo:
Cancer HT1080 nude mice is suffered from preparation.With 5 * 10 of people's fibroblastic tumor clone HT1080
6Individual cell (50 μ L, 1 * 10
8Cell/mL), through the right butt skin of subcutaneous injection BALB/c nude mice (Charles River).After 7-9 days, use to have the animal of diameter greater than the tumour of 3mm.Corpus carcinosus long-pending (its shape is estimated as ellipse) is 30-100mm
3The disposable injection cancer of following F-cutting type SeV with 50 μ L: MEM (contrast) (N=5); The MEM (1 * 10 that contains SeV-GFP
8CIU/mL) (N=5); The MEM (1 * 10 that contains SeV/ Δ M-GFP
8CIU/mL) (N=7); With the MEM (1 * 10 that contains SeV/F (MMP#2) Δ M-GFP
8CIU/mL) (N=7).Two days later, under fluorescent microscope, observe above-mentioned cancer (Figure 35).Only near the regional observation SeV-GFP and SeV/ Δ M-GFP injection site is to fluorescence (Figure 35 E and 35H).Otherwise,, observe fluorescence and be diffused into whole cancer (Figure 35 K) for SeV/F (MMP#2) Δ M-GFP.Enlarged image shows, from the fluorescence of the individual cells of corresponding SeV-GFP and SeV/ Δ M-GFP, and for SeV/F (MMP#2) Δ M-GFP, cell shape is unclear, the prompting cytogamy.In addition, whole cancer district and GFP express to distinguish in above-mentioned image and measure by NIH image.It is 10% (corresponding SeV-GFP) and 20% (corresponding SeV/ Δ M-GFP) that GFP expresses the ratio of district in whole cancer, otherwise and, the described ratio of corresponding SeV/F (MMP#2) Δ M-GFP is 90%, obviously shows to infect diffusion (Figure 36).In the tissue except that cancerous tissue, the cytogamy type infect with the manadesma of cancer cells adjacency and subcutaneous conjunctive tissue in almost can not observe.Therefore, under these conditions, determine that infection does not diffuse into cancerous tissue healthy tissues in addition.
The M defective type SeV carrier that [embodiment 24] F modifies is to suffering from the antitumous effect of cancer nude mice:
HT1080 suffers from the preparation in an identical manner as shown in Figure 35 of knurl mouse.After 8 or 9 days, the trouble diameter is selected greater than the animal of the tumour of 3mm, and the SeV of four kinds of F-cuttings below the 50 μ L is injected cancer site: MEM (N=5); Contain SeV-GFP (1 * 10
8CIU/mL) MEM (N=5); Contain MSeV/ Δ M-GFP (1 * 10
8CIU/mL) MEM (N=7); With contain SeV/F (MMP#2) Δ M-GFP (1 * 10
8CIU/mL) MEM (N=7).Two days later, equal amounts of S eV is re-injected the cancer site.Every other day measure the major axis (a) in cancer site, the length of minor axis (b) and thickness (c).Inferring cancer is oval shape, and the long-pending V=π/6 * abc that presses of corpus carcinosus calculates.Difference administration PBS, the cancer of SeV-GFP and SeV/ Δ M-GFP is grown up rapidly.Otherwise (wherein carrier is diffused into whole cancer to the cancer of administration SeV/F (MMP#2) Δ M-GFP, and as shown in figure 37), clearly demonstration is not increased and kept little volume.Show that by t check analysis significant difference compare with other three groups, its volume is obviously littler, P<0.05.This shows even without the described carrier of therapeutic gene still have anticancer effect.
[embodiment 25] preparation and selectivity infect F-does not cut/the M defective type SeV carrier of F modification:
In the preparation process of the SeV of above-mentioned use carrier, in the substratum that contains high density trypsinase and 50U/mL collagenase, cultivate, inducing the cutting of F, and collect the carrier (seeing embodiment 17 and 18) of F cutting.In the present embodiment, the uncut SeV of F produces by being collected in the SeV that does not add proteolytic enzyme in the preparation process.
Particularly, the LLC-MK2/F7/M62/A cell was cultivated in the ware of 10cm up to the full end.M defective type SeV cells infected (MOI=5) with the every kind of F modification for preparing among the embodiment 17.After one hour, remove supernatant and use MEM substratum washed twice.With 4mL MEM adding cell and 32 ℃ of cultivations.After 5 days, collect supernatant, and bovine serum albumin (BSA) is added (final concentration is 1%).After measuring the HAU titre, supernatant is kept at-70 ℃ standby.Collect the M defective type SeV that every kind of F modifies, make its concentration range 2
7-2
10HAU/mL (1HAU=1 * 10
6Virion/mL, and so corresponding 1 * 10
8-1 * 10
9Particle/mL), and be adjusted to 1 * 10 by dilution
8
The result of this exogenous test has confirmed the generation (data not shown of exogenous protease) that relied on MMP by SeV/F (MMP#2) Δ M-GFP and SeV/F (uPA) Δ M-GFP and infect the carrier of LLC-MK2 in the mode that uPA-or tPA rely on respectively.In addition, proteolytic enzyme is expressed the selectivity cause and is infected at the HT1080 bacterial strain of expressing MMP, express the MKN28 bacterial strain of tPA and whether express hardly among the SW620 of described proteolytic enzyme may, by endogenous examination (Figure 38).SeV/F (MMP#2) Δ M-GFP infects the HT1080 bacterial strain of expressing MMP, but does not infect the MKN28 bacterial strain of expressing tPA.SeV/F (uPA) Δ M-GFP infects the MKN28 bacterial strain of expressing tPA but does not infect the HT1080 bacterial strain of expressing MMP.As above-mentioned, every kind of SeV shows that the selectivity that proteolytic enzyme relies on infects.
[embodiment 26] are because because the M defective type SeV carrier infection that the F that people's fibroblast causes inducing of MMP-3 and MMP-7 modifies:
By cultivating altogether or culturing in vivo with fibroblast, SW480 and WiDr induce MMP-3 and MMP-7 (Kataoka, H. etc., Oncol.Res.9,101-109,1997 respectively; Mc Donnell, S. etc., Clin.Exp.Metastasis.17,341-349,1999).Use the infection of the M defective type SeV carrier of these cell researches F modification whether to change in vivo.Every kind of cancerous cell line was cultivated at 96 orifice plates up to the full end (5 * 10
4Cells/well).After the MEM washed twice, add the uncut SeV of F-(1HAU=1 * 10 that contain 1HAU/mL
6Virion/mL, and therefore be equivalent to 1 * 10
650 μ L MEM of particle/mL) are used for infecting.Normal human lung fibroblast (TAKARA) is with 5 * 10
4The concentration of cells/well adds in the cell and at 37 ℃ cultivates four days (Figure 39).SW480 and WiDr infect by cultivating altogether with people's fibroblast with SeV/F (MMP#2) Δ M-GFP.This phenomenon is not observed in SW620, and it is not derivable.
The M defective type SeV carrier that [embodiment 27] F modifies infects human aortic smooth muscle cell's MMP selectivity:
The false demonstration of MMP (aberrant expression) is except that having in cancer the report, also in arteriosclerosis, and rheumatoid arthritis, (Galis, Z.S., and Khatri, J.J., Circ.Res.90,251-262,2002 are reported in wound healing to some extent; Martel-Pelletier, J. etc., Best Pract.Res.Clin.Rheumatol.15,805-829,2001).
The M-absence type SeV carrier of modifying for proof F is to the applicability of these diseases, carried out carrier human aortic smooth muscle cell's MMP selectivity is infected.Human smooth muscular cells (TAKARA) is incubated at 96 orifice plates up to the full end (5 * 10
5Cells/well).After the MEM washed twice, 50 μ L are contained SeV, and (the uncut form of F-: 1HAU/mL (1 * 10
6Particle/mL)) MEM adds cell to be infected.The proteolytic enzyme MEM that contains of equivalent (50 μ L) is added wherein, and cultivated four days at 37 ℃.Calculate every 1mm
2Cell in express the cell number (Figure 40) of GFP.The infection of SeV/ Δ M-GFP strengthens by only adding trypsinase, yet the infection of SeV/F (MMP#2) Δ M-GFP is by adding collagenase, MMP-2, MMP-3 and MMP-9 enhancing.
The cutting that the proteic proteolytic enzyme of F relies in the M defective type SeV carrier that [embodiment 28] F modifies:
Shown in embodiment 20, by each proteasome degradation sequence is mixed F albumen, the M defective type SeV carrier that F modifies shows that the cytogamy type that depends on these degraded sequences infects.In addition, confirming by the Western trace appears in the mode that whether cutting of F0 relies on proteolytic enzyme after the modification.By the following method virus is taken a sample.Three types virion, SeV/ Δ M, SeV/F (MMP#2) Δ M, and SeV/F (uPA) Δ M infect the protein induced helper of M with MOI=3.Infected back two days, and collected supernatant and 18, centrifugal three hours of 500xg, and precipitation is resuspended among the PBS.For each viral suspension, adding proteolytic enzyme, to make tryptic final concentration be 7.5 μ g/mL, and the final concentration of MMP-9 is 0.1ng/mL, and the final concentration of uPA be and 0.1ng/mL, and be incubated 30 minutes at 37 ℃.Sample buffer is added each mixture with preparation SDS-PAGE sample.Carry out SDS-PAGE and Western trace (Kido according to standard method, " Isolation and characterization of anovel trypsin-like protease found in rat bronchiolar epithelial Clara cells.Apossible activator of the virus fusion glycoprotein. " J Biol Chem 267 such as H., 13573-13579,1992).By with three kinds of synthetic peptides (FFGAVIGT+Cys:117-124, EAREAKRDIALIK:143-155, and CGTGRRPISQDRS:401-413; Be respectively SEQID NO:46,47 and 48) mixture carry out immunity, obtain as the anti-F1 antibody of sero-fast rabbit.The anti-rabbit igg antibody of HRP mark (ICN, Aurola, OH) as secondary antibody, and chemiluminescence method (ECL Western trace detection reagent; Amersham Biosciences, Uppsala Sweden) is used to detect the color of appearance.Figure 41 shows with above-mentioned proteolytic enzyme in 30 minutes result of 37 ℃ of following materials of processing: the M defective type SeV carrier (1 that comprises the F of unmodified, 4,7 and 10), M defective type SeV carrier (2 with MMP# 2 sequence of inserting F, 5,8 and 11), and M defective type SeV carrier (3 with uPA sequence of inserting F, 6,9 and 12).
As shown in figure 41, the cutting of F1 is according to the protease substrate of each insertion, under following situation, occur respectively, that is: the M defective type SeV carrier for the F with unmodified is under the condition that trypsinase exists, for under the condition that exists at MMP, is under condition that uPA exist for the M defective type SeV carrier with uPA sequence of inserting F for the M defective type SeV carrier with MMP# 2 sequence of inserting F.Although show, for the M defective type SeV carrier that has inserted the uPA sequence, extend to when degradation time under four hours the situation, the cutting of F1 is observed under the condition that trypsinase exists.This conforms to embodiment's 20 dry straightly, and shows that synplasm forms the mode that relies on the F cutting and occurs.
[embodiment 29] increase fusion power by F albumen cytoplasmic region disappearance:
Paramyxovirus passes through viromembrane and host cell membrane are merged realization to host's infiltration.In this infiltration mechanism, the HN albumen of Sendai virus combines with host's sialic acid, and F albumen causes cytolemma to merge.In this step, because the proteic conformational change of F that the combination of HN causes is important (Russell according to prompting, C.J., Jardetzky, T.S. and Lamb, R.A., " Membrane fusionmachines of paramyxovirus:capture of intermediates of fusion. " EMBO is J.20,4024-34,2001).Therefore, most of F albumen of paramyxovirus on cell during single expression not showed cell cause fusion power.Have only and express the proteic cell of HN simultaneously and have the fusion of causing power.In the paramyxovirus the known enhancing of disappearance of F and HN albumen cytoplasmic region its cause fusion power (Cathomen, T., Naim, H.Y. and Cattaneo, R., " Measles virus with altered envelope protein cytoplasmic tailsgain cell fusion competence. " J.Virol.72,1224-34,1998).For causing causing fusion power, which deletion mutant of measuring the proteic cytoplasmic region of F in the Sendai virus increases at most, the preparation deletion mutant, and be inserted into pCAGGS expression vector (Gene 108 for Niwa, H. etc., 193-199,1991).The fusion power that causes that the pCAGGS that carries HN is carried out cotransfection and confirms according to the plasmodial number that forms to produce.
Each mutator gene (wherein the cytoplasmic region of F lacks) is carried out PCR, use following primer, the fragment of generation is handled with XhoI and NotI, and is connected in the pCAGGS carrier subsequently.The primer that is used for PCR is as follows: the Fct27 primer (5 '-CCGCTCGAGCATGACAGCATATATCCAGAGA-3 '/SEQ ID NO:49 and 5 '-ATAGTTTAGCGGCCGCTCATCTGATCTTCGGCTCTAATGT-3 '/SEQ IDNO:50); The Fct14 primer (5 '-CCGCTCGAGCATGACAGCATATATCCAGAGA-3 '/SEQ ID NO:51 and 5 '-ATAGTTTAGCGGCCGCTCACCTTCTGAGTCTATAAAGCAC-3 '/SEQ IDNO:52); With
The Fct4 primer (5 '-CCGCTCGAGCATGACAGCATATATCCAGAGA-3 '/SEQID NO:53, with 5 '-ATAGTTTAGCGGCCGCTCACCTTCTGAGTCTATAAAGCAC-3 '/SEQ IDNO:54) (Kobayashi M. etc., J.Viol., 77,2607,2003).
Cause fusion power for measuring cell, LLC-MK2 or HT1080 cell are laid on 24 orifice plates up to the full end.3 μ L Fugene 6 are mixed with 50 μ L Opti-MEM.The various pCAGGS expression plasmids of 2 μ g mix with the pCAGGS/EGFP of equivalent, and add subsequently in the mixture of Opti-MEM and Fugene 6.After room temperature is placed 15 minutes, mixture is added (substratum is wherein replaced with 500 μ L MEM substratum) in 24 orifice plates.At 37 ℃, 5%CO
2Cultivate after 3 hours, described substratum is replaced (being used for HT1080) with the MEM that contains 1%FBS, and replaces (being used for LLC-MK2) with the IV Collagen Type VI enzyme (Clostridium) that contains tryptic MEM of 7.5 μ g/mL or predetermined concentration.Cultivate after 48 hours the plasmodial number that counting merges/every * 100 visual field (0.3cm
2) (inverted microscope).Alternatively, cultured cells is fixed 2 hours in 4% Paraformaldehyde 96, transfers in 70% the ethanol, and transfers to subsequently in the distilled water, with brazilwood extract dyeing 5 minutes, and washes with water to count every 0.3cm
2The middle number that forms plasmodial nuclear.
Proteic three seed amino acids of F of its cytoplasmic region disappearance are shown in Figure 42 (A), and its fusion-activity is shown in Figure 42 (B).Shown in Figure 42 (B), only express the proteic cell of F and do not merge, cause fusion but induce with the cotransfection of HN.In addition, have the F albumen (Fct14) that has lacked 28 amino acid whose sequences and lacked, make cytoplasmic region become 14 amino acid, it shows the highest fusion power that causes.
[embodiment 30] F/HN chimeric protein causes causing fusion power to be reduced greatly:
The paramyxovirus envelope protein, be that F and HN albumen form the tripolymer and the tetramer respectively on cytolemma, and it is known by its extracellular domain and M protein-interacting (Plemper, R.K., Hammond, A.L. and Cattaneo, R., " Measles envelope glycoproteins hetero-oligomerize in theendoplasmic reticulum. " J.Biol.Chem.276,44239-22346,2001).As shown in figure 42, independent F albumen do not show and causes fusion power, and HN albumen it is caused fusion power is necessary.Therefore, produce and to comprise F and the proteic chimeric protein of HN to prepare and have the carrier that enhanced causes fusion power by on cytolemma, expressing F and HN albumen (as fusion rotein) simultaneously.F albumen is that II type membranin and HN are I type membranins.Therefore as Figure 43 (A) shown in, prepare chimeric protein (Fct14/HN) on cytolemma, forming U-shaped, and it comprises two membrane spaning domains.Show that the Fct14 that highly causes fusion power is as F albumen.The joint sequence of being made up of 50 amino acid is inserted between two albumen (Fct 14/ joint/HN).According to the database of present search, this joint sequence shows and any proteic homology.(use the nonsense sequence, its be N-terminal by the aminoacid sequence of the cytoplasmic region of the env of counter-rotating simian immunodeficiency virus (SIVagm) to C-terminal and synthetic).
The method for preparing F/HN chimeric protein expression of gene plasmid is specifically described hereinafter.Described F/HN chimeric protein gene is inserted into the pCAGGS carrier.Respectively F gene and HN gene are carried out PCR, and two fragments that obtain are connected in pCAGGS.In this step, with 150-bp joint gene (50amino acids) insertion F/HN gene or not to wherein inserting gene.The sequence of the primer is as follows: the F gene primer (F-F:5 '-ATCCGAATTCAGTTCAATGACAGCATATATCCAGAG-3 '/SEQ ID NO:55 and
Fct14-R:5 '-ATCCGCGGCCGCCGGTCATCTGGATTACCCATTAGC-3 '/SEQ ID NO:56); Joint/HN gene primer (joint-HN-F:5 '-ATCCGCGGCCGCAATCGAGGGAAGGTGGTCTGAGTTAAAAATCAGGAGCAACGACG GAGGTGAAGGACCAGAGGACGCCAACGACCCACGGGGAAAGGGGTGAACACATCCA TATCCAGCCATCTCTACCTGTTTATGGACAGAGGGTTAGG-3 '/SEQ ID NO:57)
And HN-R:5 '-ATCCGCGGCCGCTTAAGACTCGGCCTTGCATAA-3 '/SEQID NO:58); With HN gene primer (5 '-ATCCGCGGCCGCAATGGATGGTGATAGGGGCA-3 '/SEQ ID NO:59 and 5 '-ATCCGCGGCCGCTTAAGACTCGGCCTTGCA-3 '/SEQ ID NO:60).
Shown in Figure 43 (B), show the low fusion power that causes although do not have the chimeric egg of joint sequence, insert joint and the fusion-activity activity significantly is increased to about 5 times of the sequence that obtains by F and the proteic cotransfection of HN.
[embodiment 31] keep causing the function and the substrate specificity of fusion power:
For obtaining to cause fusion power, not only need F albumen and HN albumen are expressed simultaneously, also need F albumen to be cut into two subunits (F1 and F2) by proteolytic enzyme.In Figure 42 and 43, in the presence of trypsinase, measure and cause fusion power, and cause fusion power shown in when not having trypsinase and lack fully.The proteic cutting sequence of F is modified in Fct14/ joint/HN chimeric protein shown in Figure 43, makes it obtain to cause fusion power in the mode that MMP relies on.Reported the degraded substrate sequence of many MMP.Wherein, 8 kinds of sequences are modified.The aminoacid sequence of cleavage site is modified shown in Figure 44 (A), uses QuickChange
TMThe site-directed mutagenesis test kit (Stratagene, La Jolla, CA).The sequence of the fusogenic peptide of proteolytic enzyme cutting monkey is also considered in modification.The N-terminal in paramyxovirus F albumen F1 district, it is called fusogenic peptide, it is reported to its fusion-activity very important, and the proteic fusion power that causes of F is lost (Bagai by amino acid whose sudden change in this district sometimes, S. and Lamb, R.A., " A glycine to alaninesubstitution in the aramyxoviral SV5 fusion peptide increases the initial rate offusion. " Virology 238,283-90,1997).Therefore, indicated the not change of N-terminal region sequence of the F1 of its importance.In these cases, when insertion is known as common six residue sequence of degraded substrate of MMP, relates to by the design of MMP degraded back F1 three residues are added N-terminal.This shows that described interpolation can make and degrade by MMP, but may influence the proteic fusion power that causes of F.Therefore, when the cutting that relies on by MMP in design and activatory F albumen, must consider following 2 points: the substrate specificity of (1) MMP; And (2) cutting back F albumen causes the maintenance of fusion power.
The details for preparing the expression plasmid in the F activation site with the modification that is arranged in the F/HN gene is presented at hereinafter.After making up the F/HN fusion gene, the mutagenesis in F protein activation site is carried out on pBluescript F/HN.For importing sudden change, QuikChange is used in explanation according to test kit
TMThe site-directed mutagenesis test kit (Stratagene, La Jolla, CA).The sequence of synthetic oligonucleotide that is used to carry out mutagenesis is as follows:
F (MMP#1): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTctTggCCtGggGttATTCTTCGGT GCTGTGATTGGTACTATCG-3 '/SEQ ID NO:64 and 5 '-CGATAGTACCAATCACAGCACCGAAGAATaaCccCaGGccAagAggGGCATTTTGT GTCGTATCATTGGTGACAG-3 '/SEQ IDNO:65);
F (MMP#2): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTctTggCatGaCGAGtTTCTTCGGT GCTGTGATTGGTACTATC-3 '/SEQ ID NO:32 and 5 '-GATAGTACCAATCACAGCACCGAAGAAaCTCGtCatGccAagAggGGCATTTTGTG TCGTATCATTGGTGACAG-3 '/SEQ ID NO:33);
F (MMP#3): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTctTggCCtGggGttATTCTTCGGT GCTGTGATTGGTACTATCG-3 '/SEQ ID NO:34 and 5 '-CGATAGTACCAATCACAGCACCGAAGAATaaCccCaGGccAagAggGGCATTTTGT GTCGTATCATTGGTGACAG-3 '/SEQ ID NO:35);
F (MMP#4): (5 '-CAAAATGCCGGTGCTCCCCcGTtGgGATTCTTCGGTGCTGTGATT-33 '/SEQ ID NO:36 and 5 '-AATCACAGCACCGAAGAATCcCaACgGGGGAGCACCGGCATTTTG-3 '/SEQ ID NO:37);
F (MMP#5): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTcagggCttGtatgctTTCTTCGGT GCTGTGATTGGTACTATC-3 '/SEQ ID NO:66 and 5 '-GATAGTACCAATCACAGCACCGAAGAAagcataCaaGccctgAggGGCATTTTGTG TCGTATCATTGGTGACAG-3 '/SEQ ID NO:67);
F (MMP#6): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTcaaggCatGaCGAGtTTCTTCGGT GCTGTGATTGGTACTATC-33 '/SEQ ID NO:68 and 5 '-GATAGTACCAATCACAGCACCGAAGAAaCTCGtCatGccttgAggGGCATTTTGTG TCGTATCATTGGTGACAG-3 '/SEQID NO:69);
F (MMP#7): (5 '-CTGTCACCAATGATACGACACAAAATGCCctTgcTtaCtataCGgctTTCTTCGGT GCTGTGATTGGTACTATC-3 '/SEQ ID NO:70 and 5 '-GATAGTACCAATCACAGCACCGAAGAAagcCGtataGtaAgcAagGGCATTTTGTG TCGTATCATTGGTGACAG-3 '/SEQ ID NO:71); With
F (MMP#8): (5 '-CTGTCACCAATGATACGACACAAAATGCCccTctTggCttGgCGAGaTTCTTCGGT GCTGTGATTGGTACTATC-3 '/SEQ ID NO:72, and 5 '-GATAGTACCAATCACAGCACCGAAGAAtCTCGcCaaGccAagAggGGCATTTTGTG TCGTATCATTGGTGACAG-3 '/SEQ ID NO:73).
Lowercase is represented the Nucleotide that suddenlys change.After the modification, described sequence is connected with the EcoRI cutting and with pCAGGS.
Comprise each carrier of each sequence, and the carrier that comprises EGFP gene (pCAGGS/EGFP) is with balanced mix, and with the HT1080 of mixture transfection to high expression level MMP.As a result, have only the gene of the sequence of MMP#2 and MMP#6 to be imported into, cytogamy occurs and form synplasm (Figure 44 (B)).The something in common of these sequences is after cutting with proteolytic enzyme, to add Hy-S/T-S/T sequence (MTS) to F1 proteic N-terminal.Therefore, think that the interpolation of Hy-S/T-S/T sequence (especially MTS sequence) satisfied following needs probably: (1) keeps causing fusion power by MMP cutting F albumen and (2) cutting back F albumen in HT1080-source.On the other hand, to MMP#1, MMP#3, MMP#4, MMP#5, MMP#7 and MMP#8 do not observe cytogamy fully.Because all sequences except that the sequence of MMP#4 is all cut by proteolytic enzyme from synthetic substrate and the expection of MMP, prompting adds the proteic activity of F that F1 can limit cutting with this triamino acid peptide.For MMP#4, in this case, cutting itself does not take place probably.Though data not shown from because phorbol ester is induced MMP among HT1080, causes that MMP#4 is observed synplasm and forms this fact obviously.
In addition, except the comparison that causes fusion power of the sequence of MMP# 2 and MMP# 6, also measured the cell of MMP concentration dependence that is modified into the sequence of A by G from terminal the 7th and the 12nd residue of sequence of N of the fusogenic peptide sequence of #6 and caused fusion power (Figure 45).The oligonucleotide sequence of mutagenesis that is used for this F/HN fusion gene is as follows:
5’-CTTCGGTGCTGTGATTGcTACTATCGCACTTGcAGTGGCGACATCAGCAC-3’(SEQ?ID?NO:74)
With
5’-GTGCTGATGTCGCCACTgCAAGTGCGATAGTAgCAATCACAGCACCGAAG-3’(SEQ?ID?NO:75)。Lowercase is represented the Nucleotide that suddenlys change.The preparation expression plasmid is similar to the above, by after mutagenesis, cuts out sequence and connects in pCAGGS with EcoRI.
As a result, it is high 3 times that causing of finding that MMP# 6 has merged force rate MMP#2.Importantly, even under low protease concentration condition, MMP# 6 still inducing cell merges.That is, under lower concentration, realize the F protein activation.Yet, as sudden change (it is reported this sudden change increase F proteic cause fusion the power) (PeisajoVich of further importing G to A, S.G., Epand, R.F., Epand, R.M. and Shai, Y., " Sendaiviral N-terminal fusion peptide consists of two similar repeats, both of whichcontribute to membrane fusion. " Eur.J.Biochem.269,4342-50,2002)) (#6G12A) time, the described fusion power that causes is reduced to 1/10 or lower.These results explain, come to modify the tropism by proteolytic enzyme by simple insertion proteolytic enzyme cutting sequence, and the proteic activity of F can not keep, and causes losing under the multiple situation fusion power that causes.When making up virus by sequence importing that purpose is degraded, the described fusion power that causes confirms by using this system.In addition, because Fct14/ joint/HN that pCAGGS carries shows tangible fusion-activity, expect that the transfection of this plasmid has anti-tumour effect.In addition, by this chimeric protein being imported M defective type Sendai virus, expection can further increase anti-tumour effect.
[embodiment 32] make up the M defective type SeV genome cDNA of the improvement F modification of the fusion power that causes with increase:
Embodiment 29 and 30 shows that the F albumen increase of carrying by modification pCAGGS carrier causes fusion power.By M defective type sendai virus vector is carried out similar modification, expection can prepare the Δ M SeV of the F modification of the improvement that causes the increase of fusion power.Gene constructed the carrying out by the following method of the M defective type SeV genome cDNA that the F of improvement modifies.SeV/F (MMP#6) Δ M-GFP according to embodiment 16 in same method make up.The oligonucleotide of SEQ ID NO:69 is used in the sudden change of F gene on LITMUSSalI/NheIfrg Δ M-GFP, and QuikChange
TMThe site-directed mutagenesis test kit (CA) carry out according to test kit for Stratagene, La Jolla by explanation.The structure of the cDNA of SeV/F (MMP#6) Δ M-GFP is by the fragment of the SalI of the LITMUSSalI/NheIfrg Δ M-GFP that will suddenly change and NheI-digestion and comprises the fragment coupling of NP gene (the F defective type Sendai virus full-length gene group cDNA that carries the EGFP gene that is positioned on the F deletion segment by SalI and NheI digestion obtains (pSeV+18/F-GFP; Li, H etc., J.Viol.74,6564-6569,2000; WO00/70070)) (Figure 46).The celestial viral cDNA of multiple clone site (being called pSeV (TDK)) (JP-A 2002-272465) is used for making up M defective type Sendai virus (wherein 28 of F albumen cytoplasmic region (SeV (TDK)/Fct14 (MMP#6) Δ M-GFP) that amino acid is disappearance) and carries the basic framework of the M defective type Sendai virus of F/HN chimeric protein (SeV (TDK)/Fct14 (MMp#6)/joint/HN Δ M-GFP).M defective type Sendai virus SeV (TDK)/Fct14 (MMP#6) Δ M-GFP, wherein F albumen cytoplasmic region is by brachymemma, following structure.Because TDK at first makes up pSeV (TDK)/Δ M-GFP as framework.GFP/EIS (GFP that adds the EIS sequence of encoding transcription initial sum termination signal) uses synthetic primer (Nhe-GFP-F:ATCCGCTAGCCCGTACGGCCATGGTGAGCAAG (SEQ ID NO:94) by PCR, with GFP-EIS-BssHII:ATCCGCGCGCCCGTACGATGAACTTTCACCCTAAGTTTTTC TTACTACGGAGCTTTACTTGTACAGCTCGTC (SEQ ID NO:95)), be that template increases with LITMUSSalI/NheIfrg Δ M-GFP.NheI and BssHII handle the multiple clone site of Sendai virus cDNA and the GFP/EIS of amplification are carried out, and the fragment that produces is prepared pSeV (TDK)/Δ M-GFP by coupling to replace M albumen with GFP.
Fct14 (MMP#6) uses pCAGGS/Fct14 (MMP#6)/joint/HN of preparation among the embodiment 13 as template by PCR, use synthetic primer, Mlv-F:ATCCACGCGTCATGACAGCATATATCCAGAG (SEQ ID NO:96) and Fct14-EIS-SalI:ATCCGTCGACACGATGAACTTTCACCCTAAGTTTTTCTTAC TACTTTAACGGTCATCT GGATTACC (SEQ ID NO:97) increase.Fct14 (MMP#6) inserts the position of F with replacement F gene, thereby makes up pSeV (TDK)/Fct14 (MMP#6) Δ M-GFP (Figure 46).Subsequently, make up the M defective type Sendai virus (pSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP) of carrying the F/HN chimeric protein.GFP/EIS is template with GFP by PCR, uses synthetic primer (Nhe-GFP-F:ATCCGCTAGCCCGTACGGCCATGGTGAGCAAG (SEQ ID NO:98) and GFP-EIS-SalI:ATCCGCTAGCCCGTACGATGAACTTTCACCCTAAGTTTTTCTT ACTACGGAGCTTTACTTGTACAGCTCGTC (SEQ ID NO:99)) to increase.GFP/EIS and multiple clone site Sendai virus cDNA handle with NheI and SalI.The fragment that produces, and is replaced to produce pSeV (TDK)/Δ M Δ F-GFP with GFP with disappearance M and F gene by coupling.Fct14 (MMP#6)/joint/HN uses Fct14 (MMP#6)/joint/HN of preparation among the embodiment 31 as template by PCR, the use synthetic primer (F/HN5 ' Nhe-F:ATCCGCTAGCAGTTCAATGACAGCATTATCCAGAG (SEQ ID NO:100), and F/HN3 ' Nhe-EIS-R:ATCCGCTAGCACGATGAACTTTCACCCTAAGTTTTTCTTACTACTT TTAAGACTCGGCCTTGCATAA (SEQ ID NO:101)) increase.PSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP makes up by the NheI site that Fct14 (MMP#6)/joint/HN is coupled to above-mentioned pSeV (TDK)/Δ M Δ F-GFP.
Reconstruct and the amplification of the M defective type Sendai virus that the F of [embodiment 33] improvement modifies:
(J.Virology 74 for Li, H.-O. etc., 6564-6569,2000 according to the method for Li etc. for the cDNA reconstruct virus that makes up from embodiment 32; WO 00/70070) carry out.Yet,, use the trans proteic helper of M (embodiment 11) that provides because cDNA is the M defective form among the embodiment 17.Cre/loxP induced expression system is used to prepare helper.This system uses plasmid pCALNdLw, and described plasmid is designed to pass through Cre DNA recombinase expressing gene product (Arai, T. etc., J.Virol.72,1115-1121,1988) inductively.The gene that inserts is expressed by the transformant that recombinant adenovirus (AxCANCre) (it expresses Cre DNA recombinase) is infected this plasmid, method (Saito, I. etc., the Nucleic Acids Res.23 of the logical employing of described process Saito etc., 3816-3821,1995); Arai, T. etc., J.Virol.72,1115-1121,1998).M defective type SeV that F protein activation site is replaced such as following being reconstructed.The LLC-MK2 cell is with 5 * 10
6Cell/ware is laid on the 100-mm ware, cultivated 24 hours, then at vaccinia virus recombinant (PLWUV-VacT7:Fuerst, the T.R. etc. of room temperature with expression T7 polysaccharase, Proc.Natl.Acad.Sci.USA 83,8122-8126,1986) (with MOI=2) infects one hour (PLWUV-VacT7:Fuerst, T.R. etc., Proc.Natl.Acad.Sci.USA 83,8122-8126,1986), described vaccinia virus has used Psoralen to handle 20 minutes under ultraviolet A (365nm).With serum-free MEM washed cell.PSeV/F (MMP#6) Δ M-GFP (being pSeV (TDK)/Fct14 (MMP#6) Δ M-GFP or pSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP alternatively), pGEM/NP, pGEM/P, pGEM/L (Kato, A. etc., Genes Cells 1,569-579,1996), pGEM/M, and pGEM/F-HN (J.Virology 74 for Li, H.-O. etc., 6564-6569,2000; WO 00/70070) plasmid is respectively with 12 μ g, 4 μ g, 2 μ g, 4 μ g, the density of 4 μ g and 4 μ g/ wares be suspended from Opti-MEM (Gibco-BRL, Rockville, MD) in.(Qiagen, Bothell WA) add in the mixture and mix to be equivalent to the SuperFect transfection reagent of 5 μ L/1 μ g DNA.After room temperature was placed 15 minutes, the Opti-MEM that last and 3mL contains 3%FBS with mixture mixed, and in the adding cell, and cultivates.Cultivate after 5 hours, cell serum-free MEM washed twice, and containing 40 μ g/mL cytidylic acid β-D-arbinofuranose glycosides (AraC:Sigma subsequently, St.Louis, MO) and 7.5 μ g/mL trypsin Gibco-BRL, Rockville cultivates among MEM MD).Cultivate after 24 hours, the proteic cell of continuous expression F (LLC-MK2/F7/M62/A: embodiment 12) is with 8.5 * 10
6Cell/ware form layers, and containing 40 μ g/mL AraC and 7.5 μ g/mL trypsin P0) cultivated again two days among the MEM at 37 ℃.Collect these cells, and will precipitate with the 2mL/ ware and be suspended among the Opti-MEM.After the repeated freezing thaw cycles 3 times, the lysate direct transfection is arrived LLC-MK2/F7/M62/A, and cell cultures contains 40 μ g/mLAraC at 32 ℃, 7.5 μ g/mL trypsinase, with (ICN among the serum-free MEM of 50U/mL IV Collagen Type VI enzyme, Aurola OH) (only contains trypsinase for pSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP) (P1).After 3-14 days, collect part culture supernatant, transfection is in the LLC-MK2/F7/M62/A of firm preparation, and cell cultures contained 40 μ g/mL AraC at 32 ℃, 7.5 μ g/mL trypsinase, with (only containing trypsinase) among the serum-free MEM of 50U/mL IV Collagen Type VI enzyme (P2) after .3-14 days for pSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP, infect the LLC-MK2/F7/M62/A of preparation just with the part culture, and cell (P3) was cultivated 307 days at 32 ℃ of serum-free MEM (only containing trypsinase for pSeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP) that contain 7.5 μ g/mL trypsinase and 50U/mLIV Collagen Type VI enzyme.Collect the culture supernatant, and add BSA (final concentration is 1%), and be stored in-80 ℃.The viral solution that thaws and preserve, and be used for later preparation and in vitro tests.
As above-mentioned, successfully prepared SeV/F (MMP#6) the Δ M-GFP of F protein cleavage site from PLGMTS (SEQ ID NO:61) one-tenth PQGMTS (SEQ ID NO:62), its cytoplasmic region lacks 28 amino acid whose SeV (TDK)/Fct14 (MMP#6) Δ M-GFP and carries SeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP of F/HN chimeric protein.
The increase that causes fusion-activity of the M defective type sendai virus vector that the F of [embodiment 34] improvement modifies:
Effectiveness for the virus of preparation among the research embodiment 33 has the various cancerous cell lines of the different expression levels of MMP-2 and MMP-9, and does not detect wherein following infection of LLC-MK2 of MMP expression, and the cell of mensuration carrier causes fusion power (Figure 47).Each cancer cells (HT1080, U87MG, A172, U251, SW480, and LLC-MK2) is laid on and (contains the specified medium of supplier) on the 24-orifice plate up to the full end.U87MG (ATCC No.HTB-14) and A172 (ATCC No.CRL-1620) are available from ATCC.U251 (IFO50288) is available from the JCRB cell bank.After MEM substratum washed twice, infect each M defective type sendai virus vector (SeV/AM-GFP) with MOI=0.1.Cell was placed 1 hour in room temperature, and washed with the MEM substratum, and the 0.5mL MEM that will contain 1%FBS then adds 24 orifice plates.Cultivate after 48 hours the every X100 of the plasmodial number visual field (0.3cm that counting merges
2) (inverted microscope).Alternatively, cultured cells is fixed two hours in 4% Paraformaldehyde 96, transfers to 70% ethanol and transfers to then in the distilled water, uses brazilwood extract dyeing 5 minutes, and washes with water to count every 0.3cm
2The plasmodial check figure of middle formation.The results are shown in Figure 49.
The expression of MMP-2 and MMP-9 confirms (Figure 48) by the acceptor of the gel signal recognition particle body that carries out among the embodiment 22.As a result, HT1080, the expression of MMP2 is proved among U87MG and the A172.In addition, low-level MMP-9 is expressed among U251 and the SW480 and confirms.The obvious expression of MMP-2 in LLC-MK2 is because the MMP-2 activity in contained 1% the serum in the substratum.Each cancerous cell line infects two days later, observes the GFP diffusion.As a result, observe in U251 and SW480 and cause fusion-activity, it does not show the diffusion of the infection of traditional SeV/F (MMP#2) Δ M-GFP (the M defective type sendai virus vector of modifying with the F that improves infects).Particularly, those cells demonstrations of infecting with the M defective type sendai virus vector (SeV (TDK)/Fct14 (MMP#6)/joint/HN Δ M-GFP) that carries the F/HN chimeric protein cause fusion-activity.Although data not shown, demonstration causes fusion-activity because modified M defective type sendai virus vector infects also for Mice Bearing Lewis Lung Cancer and mouse colon-26 cancer.The improvement expection of carrier further strengthens described effect, and the cancer with lower concentration MMP is shown influence.
Industrial applicibility
The invention provides the carrier of specificity diffusive infection in the presence of the destination protein enzyme. Of the present invention Carrier does not show the obvious generation of virus-like particle, and only transfers in the peripheral cell by Fusion of Cells. Therefore, carrier of the present invention can be used to infect the carrier that is arranged in purpose tissue limitations zone. Particularly, The invention provides it is infected the carrier that specificity is diffused into cancer. These carriers have by force tumor proliferation Inhibition. Using carrier of the present invention that cancer is carried out gene therapy becomes probably very little secondary the work is arranged With new cancer therapy.
Sequence table
<110〉Dnavec Research Inc. (DNAVEC RESEARCH INC.)
<120〉has the tropism's that the proteolytic enzyme of modification relies on carrier
<130>D3-A0202P
<150>JP?2002-129351
<151>2002-04-30
<160>101
<170>PatentIn?version?3.1
<210>1
<211>3
<212>PRT
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence that proteolysis cuts
<400>1
Met?Thr?Ser
1
<210>2
<211>3
<212>PRT
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence that proteolysis cuts
<220>
<221>misc_feature
<222>(2)..(2)
<223〉position 2 ' Xaa ' represents Leu or Gln.
<400>2
Pro?Xaa?Gly
1
<210>3
<211>6
<212>PRT
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence that proteolysis cuts
<220>
<221>misc_feature
<222>(2)..(2)
<223〉position 2 ' Xaa ' represents Leu or Gln.
<400>3
Pro?Xaa?Gly?Met?Thr?Ser
1 5
<210>4
<211>5
<212>PRT
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence that proteolysis cuts
<220>
<221>misc_feature
<222>(2)..(2)
<223〉position 2 ' Xaa ' represents Leu or Gln.
<400>4
Pro?Xaa?Gly?Met?Thr
1 5
<210>5
<211>4
<212>PRT
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>5
Pro?Gln?Ser?Arg
1
<210>6
<211>3
<212>PRT
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence that proteolysis cuts
<400>6
Val?Gly?Arg
1
<210>7
<211>3
<212>PRT
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>7
Gln?Ser?Arg
1
<210>8
<211>10
<212>DNA
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>8
<210>9
<211>15
<212>DNA
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>9
tttttcttac?tacgg 15
<210>10
<211>18
<212>DNA
<213〉artificial
<220>
<223〉contain the artificial synthesized sequence in Not I site
<400>10
cggccgcaga?tcttcacg 18
<210>11
<211>39
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>11
gaaacaaaca?accaatctag?agagcgtatc?tgacttgac 39
<210>12
<211>39
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>12
gtcaagtcag?atacgctctc?tagattggtt?gtttgtttc 39
<210>13
<211>31
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>13
attacggtga?ggagggctgt?tcgagcagga?g 31
<210>14
<211>31
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>14
ctcctgctcg?aacagccctc?ctcaccgtaa?t 31
<210>15
<211>33
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>15
ggggcaatca?ccatatccaa?gatcccaaag?acc 33
<210>16
<211>33
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>16
ggtctttggg?atcttggata?tggtgattgc?ccc 33
<210>17
<211>37
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>17
catgctctgt?ggtgacaacc?cggactaggg?gttatca 37
<210>18
<211>37
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>18
tgataacccc?tagtccgggt?tgtcaccaca?gagcatg 37
<210>19
<211>41
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>19
cttgtctaga?ccaggaaatg?aagagtgcaa?ttggtacaat?a 41
<210>20
<211>41
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>20
tattgtacca?attgcactct?tcatttcctg?gtctagacaa?g 41
<210>21
<211>14
<212>PRT
<213〉artificial
<220>
<223〉be used for immune artificial synthesized sequence
<400>21
Met?Ala?Asp?Ile?Tyr?Arg?Phe?Pro?Lys?Phe?Ser?Tyr?Glu?Cys
1 5 10
<210>22
<211>13
<212>PRT
<213〉artificial
<220>
<223〉be used for immune artificial synthesized sequence
<400>22
Leu?Arg?Thr?Gly?Pro?Asp?Lys?Lys?Ala?Ile?Pro?His?Cys
1 5 10
<210>23
<211>14
<212>PRT
<213〉artificial
<220>
<223〉be used for immune artificial synthesized sequence
<400>23
Cys?Asn?Val?Val?Ala?Lys?Asn?Ile?Gly?Arg?Ile?Arg?Lys?Leu
1 5 10
<210>24
<211>48
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>24
agagtcactg?accaactaga?tcgtgcacga?ggcatcctac?catcctca 48
<210>25
<211>48
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>25
tgaggatggt?aggatgcctc?gtgcacgatc?tagttggtca?gtgactct 48
<210>26
<211>55
<212>DNA
<213〉artificial
<220>
<223〉be used to the to increase artificial synthesized sequence of hygromycin gene
<400>26
tctcgagtcg?ctcggtacga?tgaaaaagcc?tgaactcacc?gcgacgtctg?tcgag 55
<210>27
<211>83
<212>DNA
<213〉artificial
<220>
<223〉be used to the to increase artificial synthesized sequence of hygromycin gene
<400>27
aatgcatgat?cagtaaatta?caatgaacat?cgaaccccag?agtcccgcct?attcctttgc?60
cctcggacga?gtgctggggc?gtc 83
<210>28
<211>22
<212>DNA
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>28
ccaatctacc?atcagcatca?gc 22
<210>29
<211>21
<212>DNA
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>29
ttcccttcat?cgactatgac?c 21
<210>30
<211>22
<212>DNA
<213〉artificial
<220>
<223〉from the artificial synthesized sequence of Sendai virus
<400>30
agagaacaag?actaaggcta?cc 22
<210>31
<211>6
<212>PRT
<213〉artificial
<220>
<223〉amount of being used for plain boiled water is separated the artificial synthesized sequence of cutting
<400>31
Pro?Leu?Gly?Leu?Gly?Leu
1 5
<210>32
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>32
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcttggcat?gacgagtttc?ttcggtgctg?60
tgattggtac?tatc 74
<210>33
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>33
gatagtacca?atcacagcac?cgaagaaact?cgtcatgcca?agaggggcat?tttgtgtcgt?60
atcattggtg?acag 74
<210>34
<211>75
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>34
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcttggcct?ggggttattc?ttcggtgctg?60
tgattggtac?tatcg 75
<210>35
<211>75
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>35
cgatagtacc?aatcacagca?ccgaagaata?accccaggcc?aagaggggca?ttttgtgtcg?60
tatcattggt?gacag 75
<210>36
<211>45
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>36
caaaatgccg?gtgctccccc?gttgggattc?ttcggtgctg?tgatt 45
<210>37
<211>45
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>37
aatcacagca?ccgaagaatc?ccaacggggg?agcaccggca?ttttg 45
<210>38
<211>50
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>38
gacacaaaat?gccggtgctc?ccgtggggag?attcttcggt?gctgtgattg 50
<210>39
<211>50
<212>DNA
<213〉artificial
<220>
<223〉be used for the artificial synthesized sequence of Sendai virus site-directed mutagenesis
<400>39
caatcacagc?accgaagaat?ctccccacgg?gagcaccggc?attttgtgtc 50
<210>40
<211>11
<212>PRT
<213〉artificial
<220>
<223〉from the proteic artificial synthesized sequence of Sendai virus F
<400>40
Gly?Val?Pro?Gln?Ser?Arg?Phe?Phe?Gly?Ala?Val
1 5 10
<210>41
<211>13
<212>PRT
<213〉artificial
<220>
<223〉from the proteic artificial synthesized sequence of the F of Sendai virus mutagenesis
<400>41
Gly?Val?Pro?Leu?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val
1 5 10
<210>42
<211>13
<212>PRT
<213〉artificial
<220>
<223〉from the proteic artificial synthesized sequence of the F of Sendai virus mutagenesis
<400>42
Gly?Val?Pro?Leu?Gly?Leu?Gly?Leu?Phe?Phe?Gly?Ala?Val
1 5 10
<210>43
<211>10
<212>PRT
<213〉artificial
<220>
<223〉from the proteic artificial synthesized sequence of the F of Sendai virus mutagenesis
<400>43
Gly?Val?Pro?Leu?Gly?Phe?Phe?Gly?Ala?Val
1 5 10
<210>44
<211>11
<212>PRT
<213〉artificial
<220>
<223〉from the proteic artificial synthesized sequence of the F of Sendai virus mutagenesis
<400>44
Gly?Val?Pro?Val?Gly?Arg?Phe?Phe?Gly?Ala?Val
1 5 10
<210>45
<211>16
<212>PRT
<213〉artificial
<220>
<223〉the amphiphilic α-Luo Xuanjiegou territory of Sendai virus
<400>45
Lys?Ala?Cys?Thr?Asp?Leu?Arg?Ile?Thr?Val?Arg?Arg?Thr?Val?Arg?Ala
1 5 10 15
<210>46
<211>8
<212>PRT
<213〉artificial
<220>
<223〉synthetic polypeptide
<400>46
Phe?Phe?Gly?Ala?Val?Ile?Gly?Thr
1 5
<210>47
<211>13
<212>PRT
<213〉artificial
<220>
<223〉synthetic polypeptide
<400>47
Glu?Ala?Arg?Glu?Ala?Lys?Arg?Asp?Ile?Ala?Leu?Ile?Lys
1 5 10
<210>48
<211>13
<212>PRT
<213〉artificial
<220>
<223〉synthetic polypeptide
<400>48
Cys?Gly?Thr?Gly?Arg?Arg?Pro?Ile?Ser?Gln?Asp?Arg?Ser
1 5 10
<210>49
<211>31
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>49
ccgctcgagc?atgacagcat?atatccagag?a 31
<210>50
<211>40
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>50
atagtttagc?ggccgctcat?ctgatcttcg?gctctaatgt 40
<210>51
<211>31
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>51
ccgctcgagc?atgacagcat?atatccagag?a 31
<210>52
<211>40
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>52
atagtttagc?ggccgctcac?cttctgagtc?tataaagcac 40
<210>53
<211>31
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>53
ccgctcgagc?atgacagcat?atatccagag?a 31
<210>54
<211>40
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>54
atagtttagc?ggccgctcac?cttctgagtc?tataaagcac 40
<210>55
<211>36
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer, F-F
<400>55
atccgaattc?agttcaatga?cagcatatat?ccagag 36
<210>56
<211>36
<212>DNA
<213〉artificial
<220>
<223〉Fct14-synthetic primer, Fct14-R
<400>56
atccgcggcc?gccggtcatc?tggattaccc?attagc 36
<210>57
<211>152
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer, joint-HN-F
<400>57
atccgcggcc?gcaatcgagg?gaaggtggtc?tgagttaaaa?atcaggagca?acgacggagg?60
tgaaggacca?gaggacgcca?acgacccacg?gggaaagggg?tgaacacatc?catatccagc 120
catctctacc?tgtttatgga?cagagggtta?gg 152
<210>58
<211>33
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer, HN-R
<400>58
atccgcggcc?gcttaagact?cggccttgca?taa 33
<210>59
<211>32
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>59
atccgcggcc?gcaatggatg?gtgatagggg?ca 32
<210>60
<211>30
<212>DNA
<213〉artificial
<220>
<223〉synthetic primer
<400>60
atccgcggcc?gcttaagact?cggccttgca 30
<210>61
<211>6
<212>PRT
<213〉artificial
<220>
<223〉MMP cutting sequence
<400>61
Pro?Leu?Gly?Met?Thr?Ser
1 5
<210>62
<211>6
<212>PRT
<213〉artificial
<220>
<223〉MMP cutting sequence
<400>62
Pro?Gln?Gly?Met?Thr?Ser
1 5
<210>63
<211>6
<212>PRT
<213〉artificial
<220>
<223〉MMP cutting sequence
<400>63
Pro?Gln?Gly?Leu?Tyr?Ala
1 5
<210>64
<211>75
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>64
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcttggcct?ggggttattc?ttcggtgctg?60
tgattggtac?tatcg 75
<210>65
<211>75
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>65
cgatagtacc?aatcacagca?ccgaagaata?accccaggcc?aagaggggca?ttttgtgtcg?60
tatcattggt?gacag 75
<210>66
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>66
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcagggctt?gtatgctttc?ttcggtgctg?60
tgattggtac?tatc 74
<210>67
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>67
gatagtacca?atcacagcac?cgaagaaagc?atacaagccc?tgaggggcat?tttgtgtcgt?60
atcattggtg?acag 74
<210>68
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>68
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcaaggcat?gacgagtttc?ttcggtgctg?60
tgattggtac?tatc 74
<210>69
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>69
gatagtacca?atcacagcac?cgaagaaact?cgtcatgcct?tgaggggcat?tttgtgtcgt?60
atcattggtg?acag 74
<210>70
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>70
ctgtcaccaa?tgatacgaca?caaaatgccc?ttgcttacta?tacggctttc?ttcggtgctg?60
tgattggtac?tatc 74
<210>71
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>71
gatagtacca?atcacagcac?cgaagaaagc?cgtatagtaa?gcaagggcat?tttgtgtcgt?60
atcattggtg?acag 74
<210>72
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>72
ctgtcaccaa?tgatacgaca?caaaatgccc?ctcttggctt?ggcgagattc?ttcggtgctg?60
tgattggtac?tatc 74
<210>73
<211>74
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>73
gatagtacca?atcacagcac?cgaagaatct?cgccaagcca?agaggggcat?tttgtgtcgt?60
atcattggtg?acag 74
<210>74
<211>50
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>74
cttcggtgct?gtgattgcta?ctatcgcact?tgcagtggcg?acatcagcac 50
<210>75
<211>50
<212>DNA
<213〉artificial
<220>
<223〉be used for the synthetic oligonucleotide of mutagenesis
<400>75
gtgctgatgt?cgccactgca?agtgcgatag?tagcaatcac?agcaccgaag 50
<210>76
<211>49
<212>PRT
<213〉artificial
<220>
<223〉the proteic partial sequence of Sendai virus F
<400>76
Val?Ile?Val?Ile?Val?Leu?Tyr?Arg?Leu?Lys?Arg?Ser?Met?Leu?Met?Gly
1 5 10 15
Asn?Pro?Asp?Asp?Arg?Ile?Pro?Arg?Asp?Thr?Tyr?Thr?Leu?Glu?Pro?Lys
20 25 30
Ile?Arg?His?Met?Tyr?Thr?Lys?Gly?Gly?Phe?Asp?Ala?Met?Ala?Glu?Lys
35 40 45
Arg
<210>77
<211>34
<212>PRT
<213〉artificial
<220>
<223〉the proteic partial sequence of Sendai virus F
<400>77
Val?Ile?Val?Ile?Val?Leu?Tyr?Arg?Leu?Lys?Arg?Ser?Met?Leu?Met?Gly
1 5 10 15
Asn?Pro?Asp?Asp?Arg?Ile?Pro?Arg?Asp?Thr?Tyr?Thr?Leu?Glu?Pro?Lys
20 25 30
Ile?Arg
<210>78
<211>21
<212>PRT
<213〉artificial
<220>
<223〉the proteic partial sequence of Sendai virus F
<400>78
Val?Ile?Val?Ile?Val?Leu?Tyr?Arg?Leu?Lys?Arg?Ser?Met?Leu?Met?Gly
1 5 10 15
Asn?Pro?Asp?Asp?Arg
20
<210>79
<211>11
<212>PRT
<213〉artificial
<220>
<223〉the proteic partial sequence of Sendai virus F
<400>79
Val?Ile?Val?Ile?Val?Leu?Tyr?Arg?Leu?Lys?Arg
1 5 10
<210>80
<211>50
<212>PRT
<213〉artificial
<220>
<223〉joint sequence
<400>80
Ala?Ala?Ala?Ile?Glu?Gly?Arg?Trp?Ser?Glu?Leu?Lys?Ile?Arg?Ser?Asn
1 5 10 15
Asp?Gly?Gly?Glu?Gly?Pro?Glu?Asp?Ala?Asn?Asp?Pro?Arg?Gly?Lys?Gly
20 25 30
Val?Gln?His?Ile?His?Ile?Gln?Pro?Ser?Leu?Pro?Val?Tyr?Gly?G1n?Arg
35 40 45
Val?Arg
50
<210>81
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>81
Ala?Gly?Val?Pro?Gln?Ser?ArgPhe?Phe?Gly?Ala?Val
1 5 10
<210>82
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>82
Ala?Pro?Leu?Gly?Leu?Trp?Ala?Phe?Phe?Gly?Ala?Val
1 5 10
<210>83
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>83
Ala?Pro?Leu?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val
1 5 10
<210>84
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>84
Ala?Pro?Leu?Gly?Leu?Gly?Leu?Phe?Phe?Gly?Ala?Val
1 5 10
<210>85
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>85
Ala?Gly?Val?Pro?Pro?Leu?Gly?Phe?Phe?Gly?Ala?Val
1 5 10
<210>86
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>86
Ala?Pro?Gln?Gly?Leu?Tyr?Ala?Phe?Phe?Gly?Ala?Val
1 5 10
<210>87
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>87
Ala?Pro?Gln?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val
1 5 10
<210>88
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>88
Ala?Leu?Ala?Tyr?Tyr?Thr?Arg?Phe?Phe?Gly?Ala?Val
1 5 10
<210>89
<211>12
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>89
Ala?Pro?Leu?Gly?Leu?Ala?Arg?Phe?Phe?Gly?Ala?Val
1 5 10
<210>90
<211>23
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>90
Gln?Ser?Arg?Phe?Phe?Gly?Ala?Val?Ile?Gly?Thr?Ile?Ala?Leu?Gly?Val
1 5 10 15
Ala?Thr?Ser?Ala?Gln?Ile?Thr
20
<210>91
<211>26
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>91
Pro?Leu?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val?Ile?Gly?Thr?Ile?Ala
1 5 10 15
Leu?Gly?Val?Ala?Thr?Ser?Ala?Gln?Ile?Thr
20 25
<210>92
<211>26
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>92
Pro?Gln?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val?Ile?Gly?Thr?Ile?Ala
1 5 10 15
Leu?Gly?Val?Ala?Thr?Ser?Ala?Gln?Ile?Thr
20 25
<210>93
<211>26
<212>PRT
<213〉artificial
<220>
<223〉F albumen cleavage site
<400>93
Pro?Gln?Gly?Met?Thr?Ser?Phe?Phe?Gly?Ala?Val?Ile?Ala?Thr?Ile?Ala
1 5 10 15
Leu?Ala?Val?Ala?Thr?Ser?Ala?Gln?Ile?Thr
20 25
<210>94
<211>32
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>94
atccgctagc?ccgtacggcc?atggtgagca?ag 32
<210>95
<211>72
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>95
atccgcgcgc?ccgtacgatg?aactttcacc?ctaagttttt?cttactacgg?agctttactt?60
gtacagctcg?tc 72
<210>96
<211>31
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>96
atccacgcgt?catgacagca?tatatccaga?g 31
<210>97
<211>66
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>97
atccgtcgac?acgatgaact?ttcaccctaa?gtttttctta?ctactttaac?ggtcatctgg?60
attacc 66
<210>98
<211>32
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>98
atccgctagc?ccgtacggcc?atggtgagca?ag 32
<210>99
<211>72
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>99
atccgctagc?ccgtacgatg?aactttcacc?ctaagttttt?cttactacgg?agctttactt?60
gtacagctcg?tc 72
<210>100
<211>36
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>100
atccgctagc?agttcaatga?cagcatatat?ccagag 36
<210>101
<211>67
<212>DNA
<213〉artificial
<220>
<223〉oligonucleotide of synthetic
<400>101
atccgctagc?acgatgaact?ttcaccctaa?gtttttctta?ctacttttaa?gactcggcct?60
tgcataa 67
Claims (5)
1. one kind has the active fusion rotein of the cytogamy of causing, and it comprises paramyxovirus F and the proteic film district of striding of HN, and wherein said F and HN albumen interosculate in the kytoplasm side.
2. the fusion rotein of claim 1, wherein the sequence of this albumen cleavage site is replaced by can not cutting the sequence that the proteic proteolytic enzyme of wild-type F cut.
3. the proteic nucleic acid of the claim 1 of encoding.
4. the carrier that comprises the nucleic acid of claim 3.
5. virion, it comprises albumen or this proteic nucleic acid of coding of claim 1.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP129351/02 | 2002-04-30 | ||
JP2002129351 | 2002-04-30 |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN038155745A Division CN1665932B (en) | 2002-04-30 | 2003-04-30 | Vectors with modified protease-dependent tropism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN101054419A true CN101054419A (en) | 2007-10-17 |
Family
ID=29397304
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNA200710088702XA Pending CN101054419A (en) | 2002-04-30 | 2003-04-30 | Vectors with modified protease-dependent tropism |
CN038155745A Expired - Fee Related CN1665932B (en) | 2002-04-30 | 2003-04-30 | Vectors with modified protease-dependent tropism |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN038155745A Expired - Fee Related CN1665932B (en) | 2002-04-30 | 2003-04-30 | Vectors with modified protease-dependent tropism |
Country Status (9)
Country | Link |
---|---|
US (3) | US7402427B2 (en) |
EP (1) | EP1505154B1 (en) |
JP (1) | JP4448440B2 (en) |
KR (1) | KR101058294B1 (en) |
CN (2) | CN101054419A (en) |
AU (1) | AU2003234775A1 (en) |
CA (1) | CA2484538C (en) |
HK (1) | HK1081996A1 (en) |
WO (1) | WO2003093476A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104968782A (en) * | 2012-12-26 | 2015-10-07 | 生物科莫公司 | Vaccine prepared utilizing human parainfluenza virus type 2 vector |
CN111093683A (en) * | 2017-07-10 | 2020-05-01 | 株式会社爱迪药业 | Therapeutic compositions for cancer |
Families Citing this family (22)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7226786B2 (en) | 1999-05-18 | 2007-06-05 | Dnavec Research Inc. | Envelope gene-deficient Paramyxovirus vector |
CN101054419A (en) * | 2002-04-30 | 2007-10-17 | 株式会社载体研究所 | Vectors with modified protease-dependent tropism |
CN1816618A (en) * | 2003-06-30 | 2006-08-09 | 株式会社载体研究所 | Minus strand RNA viral vectors carrying a gene with altered hypermutable regions |
US20090208478A1 (en) * | 2003-10-24 | 2009-08-20 | Gencia Corporation | Transducible polypeptides for modifying metabolism |
US20090123468A1 (en) | 2003-10-24 | 2009-05-14 | Gencia Corporation | Transducible polypeptides for modifying metabolism |
US8507277B2 (en) | 2003-10-24 | 2013-08-13 | Gencia Corporation | Nonviral vectors for delivering polynucleotides |
US8062891B2 (en) | 2003-10-24 | 2011-11-22 | Gencia Corporation | Nonviral vectors for delivering polynucleotides to plants |
US8039587B2 (en) | 2003-10-24 | 2011-10-18 | Gencia Corporation | Methods and compositions for delivering polynucleotides |
US8133733B2 (en) | 2003-10-24 | 2012-03-13 | Gencia Corporation | Nonviral vectors for delivering polynucleotides to target tissues |
WO2005071085A1 (en) * | 2004-01-22 | 2005-08-04 | Dnavec Research Inc. | Process for producing virus vector |
EP1717317A4 (en) | 2004-01-22 | 2009-02-11 | Dnavec Research Inc | Methods for producing minus-strand rna viral vectors using hybrid promoter comprising cytomegalovirus enhancer and chicken beta-actin promoter |
CA2560046A1 (en) * | 2004-03-16 | 2005-09-22 | Dnavec Research Inc. | Methods for suppressing tumor proliferation |
JP2006180780A (en) * | 2004-12-27 | 2006-07-13 | National Institute Of Advanced Industrial & Technology | Persistent infection type sendai virus vector |
WO2007049752A1 (en) | 2005-10-28 | 2007-05-03 | Dnavec Corporation | Gene transfer into airway epithelial stem cell by using lentiviral vector pseudotyped with rna virus or dna virus spike protein |
US8007808B2 (en) | 2008-04-04 | 2011-08-30 | The Board Of Trustees Of The Univeristy Of Illinois | Composition and method for facilitating the internalization of a therapeutic agent into a cell |
CN106995495A (en) * | 2009-01-12 | 2017-08-01 | 希托马克斯医疗有限责任公司 | Modified antibodies composition and its preparation and application |
DE102010018961B4 (en) * | 2010-04-23 | 2012-09-20 | Eberhard-Karls-Universität Tübingen Universitätsklinikum | Genetically modified paramyxovirus for the treatment of tumor diseases |
US20110311587A1 (en) * | 2010-06-04 | 2011-12-22 | Pramila Walpita | Fusogenic virus-like particles and uses thereof |
CN105541969A (en) * | 2015-12-28 | 2016-05-04 | 合肥安德生制药有限公司 | Matrix metalloproteinase cleaved sequence peptide, expression vector, polynucleotide sequence and application |
TW202235438A (en) | 2016-11-28 | 2022-09-16 | 日商中外製藥股份有限公司 | Ligand-binding molecule having adjustable ligand binding activity |
WO2019107380A1 (en) | 2017-11-28 | 2019-06-06 | 中外製薬株式会社 | Polypeptide including antigen-binding domain and carrying section |
EP3981428A4 (en) * | 2019-06-05 | 2023-07-12 | Chugai Seiyaku Kabushiki Kaisha | Protease substrate, and polypeptide including protease cleavage sequence |
Family Cites Families (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB9200117D0 (en) * | 1992-01-06 | 1992-02-26 | Connaught Lab | Production of recombinant chimeric proteins for vaccine use |
ATE298789T1 (en) | 1995-10-31 | 2005-07-15 | Dnavec Research Inc | NEGATIVE STRAND RNA VIRUS WITH INDEPENDENT REPLICATION ACTIVITY |
AU5067599A (en) | 1998-08-11 | 2000-03-06 | Dnavec Research Inc. | Rna virus vector having contact infiltration capability |
ATE367445T1 (en) * | 1999-05-18 | 2007-08-15 | Dnavec Research Inc | VIRAL PARAMYXOVIRIDAE VECTOR WITH A DEFECTIVE ENVELOPE PROTEIN GENE |
US20020169306A1 (en) | 1999-05-18 | 2002-11-14 | Kaio Kitazato | Envelope gene-deficient paramyxovirus vector |
US7226786B2 (en) | 1999-05-18 | 2007-06-05 | Dnavec Research Inc. | Envelope gene-deficient Paramyxovirus vector |
AU7607900A (en) | 1999-09-22 | 2001-04-24 | Mayo Foundation For Medical Education And Research | Therapeutic methods and compositions using viruses of the recombinant paramyxoviridae family |
US6896881B1 (en) * | 1999-09-24 | 2005-05-24 | Mayo Foundation For Medical Education And Research | Therapeutic methods and compositions using viruses of the recombinant paramyxoviridae family |
JPWO2003025570A1 (en) | 2001-09-18 | 2004-12-24 | 株式会社ディナベック研究所 | Method for testing (-) strand RNA virus vector with reduced ability to form particles and method for producing same |
CN101054419A (en) * | 2002-04-30 | 2007-10-17 | 株式会社载体研究所 | Vectors with modified protease-dependent tropism |
EP1717317A4 (en) | 2004-01-22 | 2009-02-11 | Dnavec Research Inc | Methods for producing minus-strand rna viral vectors using hybrid promoter comprising cytomegalovirus enhancer and chicken beta-actin promoter |
WO2005071085A1 (en) | 2004-01-22 | 2005-08-04 | Dnavec Research Inc. | Process for producing virus vector |
CA2560046A1 (en) * | 2004-03-16 | 2005-09-22 | Dnavec Research Inc. | Methods for suppressing tumor proliferation |
-
2003
- 2003-04-30 CN CNA200710088702XA patent/CN101054419A/en active Pending
- 2003-04-30 KR KR1020047017455A patent/KR101058294B1/en not_active IP Right Cessation
- 2003-04-30 CN CN038155745A patent/CN1665932B/en not_active Expired - Fee Related
- 2003-04-30 WO PCT/JP2003/005528 patent/WO2003093476A1/en active Application Filing
- 2003-04-30 US US10/513,094 patent/US7402427B2/en not_active Expired - Lifetime
- 2003-04-30 EP EP03728016.1A patent/EP1505154B1/en not_active Expired - Lifetime
- 2003-04-30 CA CA2484538A patent/CA2484538C/en not_active Expired - Fee Related
- 2003-04-30 AU AU2003234775A patent/AU2003234775A1/en not_active Abandoned
- 2003-04-30 JP JP2004501612A patent/JP4448440B2/en not_active Expired - Fee Related
-
2006
- 2006-02-18 HK HK06102193.5A patent/HK1081996A1/en not_active IP Right Cessation
-
2008
- 2008-06-17 US US12/140,715 patent/US7709621B2/en not_active Expired - Fee Related
-
2010
- 2010-02-25 US US12/712,905 patent/US20100297732A1/en not_active Abandoned
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104968782A (en) * | 2012-12-26 | 2015-10-07 | 生物科莫公司 | Vaccine prepared utilizing human parainfluenza virus type 2 vector |
US9695444B2 (en) | 2012-12-26 | 2017-07-04 | BioComo Inc. | Vaccine prepared utilizing human parainfluenza virus type 2 vector |
CN104968782B (en) * | 2012-12-26 | 2019-09-06 | 生物科莫公司 | Utilize the vaccine of 2 type viral vectors of human parainfluenza |
CN111093683A (en) * | 2017-07-10 | 2020-05-01 | 株式会社爱迪药业 | Therapeutic compositions for cancer |
Also Published As
Publication number | Publication date |
---|---|
US20080299642A1 (en) | 2008-12-04 |
WO2003093476A9 (en) | 2004-06-03 |
JP4448440B2 (en) | 2010-04-07 |
KR101058294B1 (en) | 2011-08-22 |
EP1505154A1 (en) | 2005-02-09 |
AU2003234775A1 (en) | 2003-11-17 |
CN1665932B (en) | 2010-12-15 |
US7709621B2 (en) | 2010-05-04 |
JPWO2003093476A1 (en) | 2005-09-08 |
HK1081996A1 (en) | 2006-05-26 |
US7402427B2 (en) | 2008-07-22 |
EP1505154A4 (en) | 2006-09-06 |
KR20050000414A (en) | 2005-01-03 |
EP1505154B1 (en) | 2015-09-16 |
WO2003093476A1 (en) | 2003-11-13 |
CA2484538C (en) | 2014-03-25 |
US20100297732A1 (en) | 2010-11-25 |
US20050221292A1 (en) | 2005-10-06 |
CN1665932A (en) | 2005-09-07 |
CA2484538A1 (en) | 2003-11-13 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101054419A (en) | Vectors with modified protease-dependent tropism | |
CN1633599A (en) | Methods of examining (-) strand RNA virus vectors having lowered ability to form grains and method of constructing the same | |
CN1934257A (en) | Process for producing virus vector | |
CN1355851A (en) | Paramyxorividae virus vector defective in envelope gene | |
CN1934260A (en) | Method of producing minus strand rna virus vector with the use of hybrid promoter containing cytomegalovirus enhancer and avian beta-actin promoter | |
CN1281276C (en) | Virus vector for transferring gene into renal cells | |
JP2017521049A (en) | Lentiviral vector | |
JP6980674B2 (en) | Rodents with the humanized TMPRSS gene | |
CN1555417A (en) | Paramyxovirus vector for gene transfer to the cardiovascular system | |
CN1732267A (en) | Method of transferring gene into t cells | |
CN1929867A (en) | Gene therapy for tumor using minus-strand rna viral vectors encoding immunostimulatory cytokines | |
CN1675357A (en) | Pramyxovirus vectors encoding antibody and utilization thereof | |
CN1487999A (en) | Paramyxovirus vector encoding angiogenesis gene and utilization thereof | |
CN1526014A (en) | Paramyxovirus vectors for introducing foreign genes into skeletal muscle | |
CN1418252A (en) | Use of paramyxovirus vector in gene transfer into blood vessel | |
CN1816618A (en) | Minus strand RNA viral vectors carrying a gene with altered hypermutable regions | |
CN1768145A (en) | Paramyxovirus vector encoding ribozyme and utilization thereof | |
Ohtsuka et al. | Vero/BC-F: an efficient packaging cell line stably expressing F protein to generate single round-infectious human parainfluenza virus type 2 vector | |
Sakaguchi et al. | Studies on the paramyxovirus accessory genes by reverse genetics in the Sendai virus–mouse system | |
JP7117087B2 (en) | Cancer therapeutic composition | |
US9821016B2 (en) | Genetically modified paramyxovirus for treatment of tumor diseases | |
Klenk et al. | Virus and Host Factors Determining the Polygenic Nature of Pathogenicity |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
REG | Reference to a national code |
Ref country code: HK Ref legal event code: DE Ref document number: 1114104 Country of ref document: HK |
|
C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
WD01 | Invention patent application deemed withdrawn after publication |
Open date: 20071017 |
|
REG | Reference to a national code |
Ref country code: HK Ref legal event code: WD Ref document number: 1114104 Country of ref document: HK |